[Baskin, C.C. & Baskin, J.M., (1998). Seeds. Ecology, Biogeography, and Evolution of Dormancy and Germination. Academic Press.]Search in Google Scholar
[Bekker, R.M., Knevel, I.C., Tallowin, J.B.R., Troost, E.M.L. & Bakker, J.P., (1998). Soil nutrient input effects on seed longevity: a burial experiment with fen-meadow species. Functional Ecology, 12: pp. 673-682.]Search in Google Scholar
[Blaney, C.S. & Kotanen, P.M., (2001). Effects of fungal pathogens on seeds of native and exotic plants: a test using congeneric pairs. Journal of Applied Ecology, 38: pp. 1104-1113.]Search in Google Scholar
[Bradshaw, A.D., (1993). Introduction: Understanding the fundamentals of succession. - In: Miles, J. & Walton, D.W.H. (eds.), Primary succession on land (Special publication number 12 of the British ecological society), (pp. 1-4). Blackwell Scientific Publications.]Search in Google Scholar
[Brown, J.F., (1997). Effects of experimental burial on survival, growth, and resource allocation of three species of dune plants. Journal of Ecology, 85: pp. 151-158.]Search 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), (p. 267-276). Academia, Prague.]Search in Google Scholar
[Burschel, P., (1958). Die Bewurzelung einiger forstlicher Bodenpflanzen. Forst- und Jagdzeitung, 129: pp. 89-94.]Search in Google Scholar
[Cavieres, L.A. & Arroyo, M.T.K., (2001). Persistent soil seed banks in Phacelia secunda (Hydrophyllaceae): experimental detection of variation along an altitudinal gradient in the Andes of central Chile (33°S). Journal of Ecology, 89: pp. 31-39.]Search in Google Scholar
[Chapin, F.S., (1993). Physiological controls over plant establishment of tropical forest assemblages, Krakatoa, Indonesia. In: Miles, J. & Walton, D.W.H, (eds.), Primary succession on land (Special publication number 12 of the British ecological society), (pp. 161-178). Blackwell Scientific Publications.]Search in Google Scholar
[Chapin, F.S., Walker, L.R., Fastie, C.L. & Sharman, L.C., (1994). Mechanisms of primary succession following deglaciation at glacier bay, Alaska. Ecological Monographs, 64: pp. 149-175.]Search in Google Scholar
[Davidová-Vilímová J., (2004). Comparison of insect biodiversity after colonization of two different types of industrial deposits. In: Kovář P. (ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems). pp. 324-336Academia, Prague. Del Moral, R. & Bliss, C., (1993). Mechanisms of primary succession: insights resulting from the eruption of Mount St. Helens. Advances in Ecological Research, 24: pp. 1-66.]Search in Google Scholar
[Dolečková, H. & Osbornová, J., (1990). Competitive ability and plasticity of Calamagrostis epigejos. Zprávy České botanické společnosti, 25: pp. 35-38.]Search in Google Scholar
[Dostál, P., (2005). Effect of three mound-building ant species on the formation of soil seed bank in mountain grassland. Flora, 200: pp. 148-158.]Search in Google Scholar
[Eriksson, O., (1989). Seedling dynamics and life histories in clonal plants. Oikos, 55: pp. 231-238.]Search in Google Scholar
[Eriksson, O., (1992). Evolution of seed dispersal and recruitment in clonal plants. Oikos, 63: pp. 439-448.]Search in Google Scholar
[Fagan, W.F., Lewis, M., Neubert, M.G., Aumann, C., Apple, J.L. & Bishop, J.G., (2005). When can herbivores slow or reverse the spread of an invading plant? A test case from Mount St. Helens. The American Naturalist, 166: pp. 669-685.]Search in Google Scholar
[Franks, S.J., (2003). Facilitation in multiple life-history stages: evidence for nucleated succession in coastal dunes. Plant Ecology, 168: pp. 1-11.]Search in Google Scholar
[Grüttner, A. & Heinze, U., (2003). Welche Bedeutung hat die sexuelle Reproduktion für den Erfolg der Art Calamagrostis epigejos (L.) Roth (Is sexual reproduction important to the success of Calamagrostis epigejos (L.) Roth). Feddes Repertorium, 114: pp. 240-256.]Search 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, Prague.]Search in Google Scholar
[Hesse, E., Rees, M. & Müller-Schärer, H., (2007). Seed bank persistence of clonal weeds in contrasting habitats: implications for control. Plant Ecology, 190: pp. 233-243.]Search in Google Scholar
[Hroudová, Z. & Zákravský, P., (2004). The influence of the moss layer on soil surface microclimate 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.. 235-247). Academia, Prague.]Search in Google Scholar
[Jakrlová, J. & Sedláková, I., (1998). Effect of cutting on biomass production and growing parameters of the population Calamagrostis epigejos. In: Eliáš P. (ed.), Plant Population Biology, V, (pp. 78-82), SEKOS, Bratislava-Nitra,. [in Czech]. ]Search in Google Scholar
[Janczyk-Weglarska, J., (1996). The strategy of Calamagrostis epigejos (L.)Roth individual development under ecological conditions of the valley ravine of the River Warta near Poznaň. In: Ser. Biologia, 56, (104 pp.), Wydawnictwo Naukove Univ. A. Mickiewicza, Poznaň. [in Polish] ]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, Prague.]Search in Google Scholar
[Karssen, C.M. & Hilhorst, H.W.M., (1992). Effect of chemical environment on seed germination. In. Fenner, M. (ed.), Seeds. The Ecology of Regeneration in Plant Communities, (pp. 327-348). C.A.B. International, Wallingford.]Search in Google Scholar
[Kirmer, A., Tischew, S., Ozinga, W.A., von Lampe, M., Baasch, A. & van Groenendael, J.M., (2008). Importance of regional species pools and functional traits in colonization processes: predicting re-colonization after large-scale destruction of ecosystems. Journal of Applied Ecology, 45: pp. 1523-1530.]Search in Google Scholar
[Klebingat, G., (1968): Ein Beitrag zu Biologie forstlicher Unkräuter. SYS-Reporter 2: pp. 3-6.]Search in Google Scholar
[Kovář, P., (2004). Industrial deposits of abandoned sedimentation basins - technology of the origin and vegetation. In: Kovář P. (ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems), (pp. 15-29). Academia, Prague.]Search in Google Scholar
[Kovář, P., Štefánek, M. & Mrázek, J., (2011). Responses of vegetation stages with woody dominants to stress and disturbance during succession of abandoned tailings in cultural landscape. Journal of Landscape Ecology, 4(2): pp. 35-48.]Search in Google Scholar
[Kovář, P., Vojtíšek, P. & Zentsová, I., (2013). Ants as ecosystem engineers in natural restoration of human made habitats. Journal of Landscape Ecology, 6(1), pp. 18-31.10.2478/v10285-012-0061-9]Search 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, Prague.]Search in Google Scholar
[Lehmann, C., (1997). Clonal diversity of populations of Calamagrostis epigejos in relation to environmental stress and habitat heterogeneity. Ecography, 20: pp. 483-490.]Search in Google Scholar
[Lehmann, C. & Rebele, F., (1994). Zum Potential sexueller Fortpflanzung bei Calamagrostis epigejos (L.) Roth. Verh. Ges. f. Ökologie Bd., 23: pp. 445-450.]Search in Google Scholar
[Leishman, M.R. & Westoby, M., (1994). The role of seed size in seedling establishment in dry soil conditions - experimental evidence from semi-arid species. Journal of Ecology, 82: pp. 249-258.]Search in Google Scholar
[Lonsdale, W.M., (1988). Interpreting seed survivorship curves. Oikos, 52: pp. 361-364.]Search in Google Scholar
[Lowett Doust, L. & Lowett Doust, J., (1982). The battle strategies of plants. New Scientist, 95: pp. 81-84.]Search in Google Scholar
[Marková, K., (2004). Species diversity of parasitic fungi on plants colonizing toxic substrates. In: Kovář P. (ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems), (pp. 176-182). Academia, Prague. ]Search in Google Scholar
[McClanahan, T.R. & Wolfe, R.W., (1993). Accelerating forest succession in a fragmented landscape - the role of birds and perches. Conservation Biology, 7: pp. 279-288.]Search in Google Scholar
[Murdoch, A.J. & Ellis, R.H., (1992). Longevity, viability and dormancy. In: Fenner, M. (ed.), Seeds. The Ecology of Regeneration in Plant Communities, (pp. 193-229). C.A.B. International, Wallingford.]Search in Google Scholar
[Pennings, S.C. & Callaway, R.M., (2000). The advantages of clonal integration under different ecological conditions: A community-wide test. Ecology, 81: pp. 709-716.]Search in Google Scholar
[Pickett, S.T.A. & White, P.S., (1985). The Ecology of Natural Disturbance and Patch Dynamics. Academic Press, Orlando.]Search in Google Scholar
[Požárová, E., (2004). Soil microfungi associated with the roots of Calamagrostis epigejos, an expansive plant abundant in abandoned sedimentation basin in Chvaletice. In: Kovář P. (ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems), (pp. 132-146). Academia, Prague.]Search in Google Scholar
[Prach, K., (1988). Životní cykly rostlin ve vztahu k časovým změnám populací a společenstev. Preslia, 60: pp. 23-40.]Search in Google Scholar
[Prach, K. & Pyšek, P., (1994). Clonal plants - what is their role in succession. Folia Geobotanica et Phytotaxonimica, 29: pp. 307-320.]Search in Google Scholar
[Prach, K. & Pyšek, P., (1999). How do species dominating in succession differ from others? Journal of Vegetation Science, 10: pp. 383-392.]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, Prague.]Search in Google Scholar
[Rebele, F. & Lehmann, C., (2001). Biological flora of Central Europe: Calamagrostis epigejos (L.). Roth. Flora, 196: pp. 325-344.]Search in Google Scholar
[Rees, M. & Long, M.J., (1993). The analysis and interpretation of seedling recruitment curves. The American Naturalist, 141: pp. 233-262.]Search in Google Scholar
[Rydin, H. & Borgegård, S.O., (1991). Plant characteristics over a century of primary succession on islands: Lake Hjalmaren. Ecology, 72: pp. 1089-1101.]Search in Google Scholar
[Spěváková, K., (2004). Degradation of plant litter and cellulose by microscopic fungi in an abandoned sedimentation basin. In: Kovář P. (ed.): Natural Recovery of Human-Made Deposits in Landscape (Biotic Interactions and Ore/Ash-Slag Artificial Ecosystems), (pp. 147-152). Academia, Prague.]Search in Google Scholar
[Štefánek, M., Kovář, P. & Dlouhá, V., (2012). Role of fire episode, leaf litter decomposition and mulching effects in restoration of the surface soil crust microecosystem on abandoned tailings containment. Journal of Landscape Ecology, 5(3): pp. 57-69.]Search in Google Scholar
[Stöcklin, J. & Fischer, M., (1999). Plants with longer-lived seeds have in grassland remnants 1950-1985. Oecologia, 120: pp. 539-543.]Search in Google Scholar
[Thompson, K., Bakker, J.P. & Bekker, R.M., (1997). The soil seed banks of north west Europe: Methodology, density and longevity. Cambridge, Cambridge University Press.]Search in Google Scholar
[Tsuyuzaki, S., (1987). Origin of plants recovering on the volcano Usu, northern Japan, since the erruption of 1977 and 1978. Vegetatio, 73: pp. 53-58.]Search in Google Scholar
[Willems, H.H. & Huijsmans, K.G.A., (1994). Vertical seed dispersal by earthworms - a quantitative approach. Ecography, 17: pp. 124-130.]Search in Google Scholar
[Wood, D.M. & del Moral, R., (1987). Mechanisms of early primary succession in subalpine habitats on Mount St. Helens. Ecology, 68: pp. 780-790.]Search in Google Scholar
[Yarranton, G.A. & Morrison, R.G., (1974). Spatial dynamics of primary succession: nucleation. Journal of Ecology, 62: pp. 417-428. ]Search in Google Scholar
