1. bookVolume 6 (2013): Edizione 2 (December 2013)
Dettagli della rivista
License
Formato
Rivista
eISSN
1805-4196
ISSN
1805-4196
Prima pubblicazione
20 Jun 2008
Frequenza di pubblicazione
3 volte all'anno
Lingue
Inglese
Accesso libero

Seed rain and seed persistence of Calamagrostis epigejos (l.) roth in extreme ecotoxicological conditions at an abandoned ore-washery sedimentation basin

Pubblicato online: 14 Feb 2014
Volume & Edizione: Volume 6 (2013) - Edizione 2 (December 2013)
Pagine: 17 - 33
Dettagli della rivista
License
Formato
Rivista
eISSN
1805-4196
ISSN
1805-4196
Prima pubblicazione
20 Jun 2008
Frequenza di pubblicazione
3 volte all'anno
Lingue
Inglese

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/v10285-012-0061-9Search 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

Articoli consigliati da Trend MD

Pianifica la tua conferenza remota con Sciendo