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References

  • Aronsson, M., Edqvist, M., Andersson, U.-B., Bertilsson, A., Ericsson, S., Mattiasson, G. & Ståhl, P. (2010) Kärlväxter – vascular plants (Tracheophyta). The 2010 Red List of Swedish Species (ed U. Gärdenfors), pp. 201221. ArtDatabanken, Uppsala.
  • Bakker, J.P., Bakker, E.S., Rosén, E., Verweij, G.L. & Bekker, R.M. (1996) Soil seed bank composition along a gradient from dry alvar grassland to Juniperus shrubland. Journal of Vegetation Science, 7, 165176.
  • Bekker, R.M., Verweij, G.L., Smith, R.E.N., Reine, R., Bakker, J.P. & Schneider, S. (1997) Soil seed banks in European grasslands: does land use affect regeneration perspectives? Journal of Applied Ecology, 34, 12931310.
  • Berge, G. & Hestmark, G. (1997) Composition of seed banks of roadsides, stream verges and agricultural fields in southern Norway. Annales Botanici Fennici, 34, 7790.
  • Bisteau, E. & Mahy, G. (2005) Vegetation and seed bank in a calcareous grassland restored from a Pinus forest. Applied Vegetation Science, 8, 167174.
  • Bossuyt, B., Butaye, J. & Honnay, O. (2006) Seed bank composition of open and overgrown calcareous grassland soils – a case study from Southern Belgium. Journal of Environmental Management, 79, 364371.
  • Bossuyt, B. & Honnay, O. (2008) Can the seed bank be used for ecological restoration? An overview of seed bank characteristics in European communities. Journal of Vegetation Science, 19, 875884.
  • ter Braak, C.J.F. & Schaffers, A.P. (2004) Co-correspondence analysis: a new ordination method to relate two community compositions. Ecology, 85, 834846.
  • Chao, A., Chazdon, R.L., Colwell, R.K. & Shen, T.J. (2005) A new statistical approach for assessing similarity of species composition with incidence and abundance data. Ecology Letters, 8, 148159.
  • Chippindale, H.G. & Milton, W.E.J. (1934) On the viable seeds present in the soil beneath pastures. Journal of Ecology, 22, 508531.
  • Cousins, S.A.O. (2001) Analysis of land-cover transitions based on 17th and 18th century cadastral maps and aerial photographs. Landscape Ecology, 16, 4154.
  • Cousins, S.A.O. (2006) Plant species richness in midfield islets and road verges – the effect of landscape fragmentation. Biological Conservation, 127, 500509.
  • Cousins, S.A.O. & Aggemyr, E. (2008) The influence of field shape, area and surrounding landscape on plant species richness in grazed ex-fields. Biological Conservation, 141, 126135.
  • Cousins, S.A.O. & Eriksson, O. (2001) Plant species occurrences in a rural hemiboreal landscape: effects of remnant habitats, site history, topography and soil. Ecography, 24, 461469.
  • Cousins, S.A.O. & Lindborg, R. (2008) Remnant grassland habitats as source communities for plant diversification in agricultural landscapes. Biological Conservation, 141, 233240.
  • Dahlström, A., Rydin, H. & Borgegård, S.-O. (2010) Remnant habitats for grassland species in an abandoned Swedish agricultural landscape. Applied Vegetation Science, 13, 305314.
  • Dölle, M. & Schmidt, W. (2009) The relationship between soil seed bank, above-ground vegetation and disturbance intensity on old-field successional permanent plots. Applied Vegetation Science, 12, 415428.
  • Dufrêne, M. & Legendre, P. (1997) Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecological Monographs, 67, 345366.
  • Edvardsen, A., Halvorsen, R., Norderhaug, A., Pedersen, O. & Rydgren, K. (2010) Habitat specificity of patches in modern agricultural landscapes. Landscape Ecology, 25, 10711083.
  • Eriksson, O., Wikström, S., Eriksson, Å. & Lindborg, R. (2006) Species-rich Scandinavian grasslands are inherently open to invasion. Biological Invasions, 8, 355363.
  • Falińska, K. (1999) Seed bank dynamics in abandoned meadows during a 20-year period in the Białowieża National Park. Journal of Ecology, 87, 461475.
  • Fuller, R.M. (1987) The changing extent and conservation interest of lowland grasslands in England and Wales: a review of grassland surveys 1930–84. Biological Conservation, 40, 281300.
  • Gibson, C.W.D. & Brown, V.K. (1992) Grazing and vegetation change: deflected of modified succession? Journal of Applied Ecology, 29, 120131.
  • Harrison, S. & Bruna, E. (1999) Habitat fragmentation and large-scale conservation: what do we know for sure? Ecography, 22, 225232.
  • Hellström, K., Huhta, A.P., Rautio, P. & Tuomi, J. (2006) Search for optimal mowing regime – slow community change in a restoration trial in northern Finland. Annales Botanici Fennici, 43, 338348.
  • Helm, A., Hanski, I. & Pärtel, M. (2006) Slow response of plant species richness to habitat loss and fragmentation. Ecology Letters, 9, 7277.
  • Hovd, H. & Skogen, A. (2005) Plant species in arable field margins and road verges of central Norway. Agriculture Ecosystems & Environment, 110, 257265.
  • Hutchings, M.J. & Booth, K.D. (1996) Studies on the feasibility of re-creating chalk grassland vegetation on ex-arable land. 1. The potential roles of the seed bank and the seed rain. Journal of Applied Ecology, 33, 11711181.
  • Jakobsson, A., Eriksson, O. & Bruun, H.H. (2006) Local seed rain and seed bank in a species-rich grassland: effects of plant abundance and seed size. Canadian Journal of Botany-Revue Canadienne De Botanique, 84, 18701881.
  • Johansson, V., Cousins, S. & Eriksson, O. (2011) Remnant populations and plant functional traits in abandoned semi-natural grasslands. Folia Geobotanica, 46:165179.
  • Kalamees, R. & Zobel, M. (1998) Soil seed bank composition in different successional stages of a species rich wooded meadow in Laelatu, western Estonia. Acta Oecologica-International Journal of Ecology, 19, 175180.
  • Kardol, P., Van der Wal, A., Bezemer, T.M., de Boer, W., Duyts, H., Holtkamp, R. & Van der Putten, W.H. (2008) Restoration of species-rich grasslands on ex-arable land: seed addition outweighs soil fertility reduction. Biological Conservation, 141, 22082217.
  • Klimeš, L., Jongepierová, I. & Jongepier, J.W. (2000) The effect of mowing on a previously abandoned meadow: a ten-year experiment. Priroda Praha, 17, 724.
  • Klimeš, L., Dančák, M., Hájek, M., Jongepierová, I. & Kučera, T. (2001) Scale-dependent biases in species counts in a grassland. Journal of Vegetation Science, 12, 699704.
  • Krauss, J., Bommarco, R., Guardiola, M., Heikkinen, R.K., Helm, A., Kuussaari, M., Lindborg, R., Öckinger, E., Pärtel, M., Pino, J., Pöyry, J., Raatikainen, K.M., Sang, A., Stefanescu, C., Teder, T., Zobel, M. & Steffan-Dewenter, I. (2010) Habitat fragmentation causes immediate and time-delayed biodiversity loss at different trophic levels. Ecology Letters, 13, 597605.
  • Kull, K. & Zobel, M. (1991) High species richness in an Estonian wooded meadow. Journal of Vegetation Science, 2, 715718.
  • Legendre, P., Borcard, D. & Peres-Neto, P.R. (2005) Analyzing beta diversity: partitioning the spatial variation of community composition data. Ecological Monographs, 75, 435450.
  • Lindborg, R. & Eriksson, O. (2004) Historical landscape connectivity affects present plant species diversity. Ecology, 85, 18401845.
  • Maindonald, J. & Braun, W.J. (2009) DAAG: Data Analysis and Graphics data and functions. R package version 1.01, http://CRAN.R-project.org/package=DAAG.
  • Milberg, P. (1995) Soil seed bank after 18 years of succession from grassland to forest. Oikos, 72, 313.
  • Milberg, P. & Persson, T.S. (1994) Soil seed bank and species recruitment in road verge grassland vegetation. Annales Botanici Fennici, 31, 155162.
  • Mitlacher, K., Poschlod, P., Rosén, E. & Bakker, J.P. (2002) Restoration of wooded meadows – a comparative analysis along a chronosequence on Öland (Sweden). Applied Vegetation Science, 5, 6373.
  • Oksanen, J., Blanchet, F.G., Kindt, R., Legendre, P., O’Hara, R.B., Simpson, G.L., Solymos, P., Stevens, M.H.H. & Wagner, H. (2010) vegan: Community Ecology Package. R package version 1.17-3, http://CRAN.R-project.org/package=vegan.
  • Öster, M., Ask, K., Cousins, S.A.O. & Eriksson, O. (2009) Dispersal and establishment limitation reduces the potential for successful restoration of semi-natural grassland communities on former arable fields. Journal of Applied Ecology, 46, 12661274.
  • Pärtel, M., Mandla, R. & Zobel, M. (1999) Landscape history of a calcareous (alvar) grassland in Hanila, western Estonia, during the last three hundred years. Landscape Ecology, 14, 187196.
  • Pärtel, M., Kalamees, R., Zobel, M. & Rosén, E. (1998) Restoration of species-rich limestone grassland communities from overgrown land: the importance of propagule availability. Ecological Engineering, 10, 275286.
  • Plue, J., Van Gils, B., Peppler-Lisbach, C., De Schrijver, A., Verheyen, K. & Hermy, M. (2010) Seed-bank convergence under different tree species during forest development. Perspectives in Plant Ecology, Evolution and Systematics, 12, 211218.
  • Pywell, R.F., Bullock, J.M., Hopkins, A., Walker, K.J., Sparks, T.H., Burke, M.J.W. & Peel, S. (2002) Restoration of species-rich grassland on arable land: assessing the limiting processes using a multi-site experiment. Journal of Applied Ecology, 39, 294309.
  • R Development Core Team (2009), R: A Language and Environment for Statistical Computing. ISBN 3-900051-07-0, http://www.R-project.org.
  • Roberts, D.W. (2010) labdsv: Ordination and Multivariate Analysis for Ecology. R package version 1.4-1, http://CRAN.R-project.org/package=labdsv.
  • Rosef, L. (2008) Germinable soil seed banks in abandoned grasslands in central and western Norway and their significance for restoration. Applied Vegetation Science, 11, 223230.
  • Ruprecht, E. (2006) Successfully recovered grassland: a promising example from Romanian old-fields. Restoration Ecology, 14, 473480.
  • Simpson, G.L. (2009) cocorresp: co-correspondence analysis ordination methods. R package version 0.1-9, http://cran.r-project.org/package=cocorresp.
  • Smart, S.M., Bunce, R.G.H., Firbank, L.G. & Coward, P. (2002) Do field boundaries act as refugia for grassland plant species diversity in intensively managed agricultural landscapes in Britain? Agriculture Ecosystems & Environment, 91, 7387.
  • Smith, R.S., Shiel, R.S., Millward, D. & Corkhill, P. (2000) The interactive effects of management on the productivity and plant community structure of an upland meadow: an 8-year field trial. Journal of Applied Ecology, 37, 10291043.
  • Smith, R.S., Shiel, R.S., Millward, D., Corkhill, P. & Sanderson, R.A. (2002) Soil seed banks and the effects of meadow management on vegetation change in a 10-year meadow field trial. Journal of Applied Ecology, 39, 279293.
  • Solymos, P. (2009) Processing ecological data in R with the mefa package. Journal of Statistical Software, 29, 128.
  • Stampfli, A. & Zeiter, M. (1999) Plant species decline due to abandonment of meadows cannot easily be reversed by mowing. A case study from the southern Alps. Journal of Vegetation Science, 10, 151164.
  • Ter Heerdt, G.N.J., Verweij, G.L., Bekker, R.M. & Bakker, J.P. (1996) An improved method for seed-bank analysis: seedling emergence after removing the soil by sieving. Functional Ecology, 10, 144151.
  • Wagner, M., Poschlod, P. & Setchfield, R.P. (2003) Soil seed bank in managed and abandoned semi-natural meadows in Soomaa National Park, Estonia. Annales Botanici Fennici, 40, 87100.
  • Walker, K.J., Stevens, P.A., Stevens, D.P., Mountford, J.O., Manchester, S.J. & Pywell, R.F. (2004) The restoration and re-creation of species-rich lowland grassland on land formerly managed for intensive agriculture in the UK. Biological Conservation, 119, 118.