Forest biodiversity and production potential of post-mining landscape: opting for afforestation or leaving it to spontaneous development?

Anděl, J., 1998: Statistické metody. Matfyzpress, Praha, 274 p.Search in Google Scholar

Bacia, J., Barzdajn, W., 2007: Effects of soil reclamation on afforestation of degraded areas in the Chocianow Forests District. Sylwan, 151:44–51.Search in Google Scholar

Brandi, C., 2015: Safeguarding the earth system as a priority for sustainable development and global ethics: the need for an earth system SDG. Journal of Global Ethics, 11:32–36.10.1080/17449626.2015.1006791Search in Google Scholar

Buček, A., Lacina, J., 2001: Harmonická kulturní krajina venkova – sny a realita. In: Tvář naší země – krajina domova. Sborník příspěvků z konference z 21. – 23. února 2001 na Pražském hradě a v Průhonicích. Praha, Česká komora architektů, p. 71–76.Search in Google Scholar

Byers, J. E., Cuddington, K., Jones, C. G., Talley, T. S., Hastings, A., Lambrinos, J. G. et al., 2006: Using ecosystem engineers to restore ecological systems. Trends in ecology & Evolution, 21:493–500.10.1016/j.tree.2006.06.00216806576Search in Google Scholar

Clark, P. J., Evans, F. C., 1954: Distance to nearest neighbour as a measure of spatial relationship in populations. Ecology, 35:445–453.10.2307/1931034Search in Google Scholar

Cukor, J., Linhart, L., Vacek, Z., Baláš, M., Linda, R., 2017: The Effects of Alginite Fertilization on Selected Tree Species Seedlings Performance on Afforested Agricultural Lands. Central European Forestry Journal, 63:48–56.10.1515/forj-2017-0001Search in Google Scholar

Cukor, J., Vacek, Z., Linda, R., Remeš, J., Bílek, L., Sharma, R. P. et al., 2017: Effect of mineral eco-fertilizer on growth and mortality of young afforestations. Austrian Journal of Forest Science, 134:367–386.Search in Google Scholar

Černý, M., Cienciala, E., Russ, R., 2009: Metodika terénního šetření v systému inventarizace krajiny Czech- Terra. IFER - Ústav pro výzkum lesních ekosystémů, s.r.o., Czech Republic, 70 p.Search in Google Scholar

Dimitrovský, K., 2001: Tvorba nové krajiny na Sokolovsku. Sokolov, Sokolovská uhelná, 191 p.Search in Google Scholar

Dimitrovský, K., Kunt, M., Vacek, O., 2016: Geneze antropogenních substrátů na výsypkách jako základ pro vytvoření lesnické rekultivační typologie. Zpravodaj Hnědé uhlí, 1:39–51.Search in Google Scholar

Dimitrovský, K., Kupka, I., Popperl, I., 2007: Les jako důležitý fenomén obnovy průmyslové krajiny. In: Obnova lesního prostředí při zalesňování zemědělských a degradovaných půd. Kostelec nad Černými lesy, 22. 11. 2007, ČZU v Praze, p. 20–27.Search in Google Scholar

Dimitrovský, K., Modrá, B., Prokopová, D., 2010: Produkční a mimoprodukční význam antropogenních substrátů na výsypkách sokolovské uhelné pánve. Zpravodaj Hnědé uhlí, 4:8–16.Search in Google Scholar

Ellis, E. C., Ramankutty, N., 2008: Putting people in the map: anthropogenic biomes of the world. Frontiers in Ecology and Environment, 6:439–447.10.1890/070062Search in Google Scholar

Erisman, J. W., Galloway, J. N., Seitzinger, S., Bleeker, A., Dise, N. B., Roxana Petrescu, A. M. et al., 2013: Consequences of human modification of the global nitrogen cycle. Philosophical Transactions of the Royal Society B 368: 20130116.10.1098/rstb.2013.0116368273823713116Search in Google Scholar

Ferreiro-Domínguez, N., Rigueiro-Dodríguez, A., Mosquera-Losada, M. R., 2011: Response to sewage sludge fertilisation in a Quercus rubra L. silvopastornal system: Soil, plant biodiversity and tree and pasture production. Agriculture, Ecosystems and Environment, 141:9–57.10.1016/j.agee.2011.02.009Search in Google Scholar

Feudean, A., Munteanu, C., Kuemmerle, T., Nielsen, A. B., Hutchinson, S. M., Ruprecht, E. et al., 2017: Long-term land-cover/use change in a traditional farming landscape in Romania inferred from pollen data, historical maps and satellite images. Regional Environmental Change, 8:2193–2207.10.1007/s10113-016-1063-7Search in Google Scholar

Füldner, K., 1995: Strukturbeschreibung von Buchen-Edellaubholz- Mischwäldern. Dissertation Forstliche Fakultät Göttingen, Cuvillier Verlag, Göttingen, Germany, 146 p.Search in Google Scholar

Glos, R., 2016: Pojetí výchovných zásahů v porostech introdukovaných dřevin na výsypce Antonín na Sokolovsku. Diplomová práce, FLD ČZU v Praze, 64 p.Search in Google Scholar

Gómez-Aparicio, L., 2009: The role of plant interactions in the restoration of degraded ecosystems: a metaanalysis across life-forms and ecosystems. Journal of Ecology, 97:1202–1214.10.1111/j.1365-2745.2009.01573.xSearch in Google Scholar

Graf, F., Frei, M., 2013: Soil aggregate stability related to soil density, root length, and mycorrhiza using sitespecific Alnus incana and Melanogaster variegatus s.l. Ecological Engineering, 57:314–323.10.1016/j.ecoleng.2013.04.037Search in Google Scholar

Hastings, A., Byers, J. E., Crooks, J. A., Cuddington, K., Jones, C. G., Lambrinos, J. G. et al., 2007: Ecosystem engineering in space and time. Ecology Letters, 10:153–164.10.1111/j.1461-0248.2006.00997.xSearch in Google Scholar

Heinsdorf, D., 1996: Development of forest stands in the Lusatian lignite mining district after mineral rertilization adapted to site and tree species. Water, Air, and Soil Pollution, 91:33–42.10.1007/978-94-015-8694-8_3Search in Google Scholar

Hendrychová, M., Kabrna, M., 2016: An analysis of 200-year-long changes in a landscape affected by large-scale surface coal mining: History, present and future. Applied Geography, 74:151–159.10.1016/j.apgeog.2016.07.009Search in Google Scholar

Hilson, G., 2002: An overview of land use conflicts in mining communities. Land Use Policy, 19:65–73.10.1016/S0264-8377(01)00043-6Search in Google Scholar

Jaehne, S., Dohrenbusch, A., 1997: A method to evaluate forest stand diversity. Forstwissenshaftliches Centralblatt, 116:333–345.10.1007/BF02766909Search in Google Scholar

Katzur, F., Haubold-Rosar, M., 1996: Amelioration and reforestation of sulfurous mine soils in Lusatia (Eastern Germany). Water, Air, and Soil Pollution, 91:17–32.10.1007/978-94-015-8694-8_2Search in Google Scholar

Knoche, D., 2005: Effects of stand conversion by thinning and underplanting on water and element fluxes of a pine ecosystem (P. sylvestris L.) on lignite mine spoil. Forest Ecology and Management, 212:214–220.10.1016/j.foreco.2005.03.038Search 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), Academia, Prague, p. 15–29.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), Academia, Prague, p. 277–284.Search in Google Scholar

Kubát, J., 2008: History and Present Situation on Reclamation of Spoil Banks in the Sokolov Region. Scientia Agriculturae Bohemica, 39:342–347.Search in Google Scholar

Kupka, I., Dimitrovský, K., 2011: Test results of selected tree species for forestry reclamations in the sokolov region: Review. Zprávy lesnického výzkumu, 56:52–56.Search in Google Scholar

Kuznetsova, T., Lukjanova, A., Mandre, M., Lõhmus, K., 2011: Aboveground biomass and nutrient accumulation dynamics in young black alder, silver birch and Scots pine plantations on reclaimed oil shale mining areas in Estonia. Forest Ecology and Management, 262:56–64.10.1016/j.foreco.2010.09.030Search in Google Scholar

Lanz, B., Dietz, S., Swanson, T., 2018: The Expansion of Modern Agriculture and Global Biodiversity Decline: An Integrated Assessment. Ecological Economics, 144:260–277.10.1016/j.ecolecon.2017.07.018Search in Google Scholar

Likus-Cieślik, J., Pietrzykowski, M., 2017: Vegetation development and nutrients supply of trees in babitats with high sulfur concentration in reclaimed former sulfur mines Jeziórko (Southern Poland). Environmental Science and Pollution Research, 24:20556–20566.10.1007/s11356-017-9638-5557493428710736Search in Google Scholar

Maděra, P., Kovářová, P., 2004: Primary succession of white willow communities in the supraregional biocorridor in the Middle water reservoir of Nové Mlýny. Ekológia, 23:191–204.Search in Google Scholar

Matějíček, L., Kovář, P., 2015: Computer Based Modeling of Vegetation Propagation across a Disturbed Space Linked to GIS. Journal of Earth Science and Engineering, 5:410–416.10.17265/2159-581X/2015.07.002Search in Google Scholar

Margalef, R., 1958: Information theory in ecology. General Systematics, 3:36–71.Search in Google Scholar

Mountford, M.D., 1961: On E. C. Pielou’s index of nonrandomness. Journal of Ecology, 49:271–275.10.2307/2257261Search in Google Scholar

Näslund, M., 1936: Skogsförsöksanstaltens gallringsförsök i tallskog. Meddelanden från Statens Skogsförsöksanstalt, Swedish Institute of Experimental Forestry, 29:169.Search in Google Scholar

Pająk, M., Forgiel, M., Krzaklewski, W., 2004: Growth of trees used in reforestation of a northern slope of the external spoil bank of the “Bełchatów” Brown Coal Mine. Electronic Journal of Polish Agricultural Universities, Series Forestry, 7:#02.Search in Google Scholar

Paz-Kagan, T., Zaady, E., Shachak, M., Karnieli, A., 2016: Transformation of shrublands to forests: The role of woody species as ecosystem engineers and landscape modulators. Forest Ecology and Management, 361:257–268.10.1016/j.foreco.2015.11.021Search in Google Scholar

Pensa, M., Sellin, A., Luud, A., Valgma, I., 2004: An analysis of vegetation restoration on opencast oil shale mines in Estonia. Restoration Ecology, 12:200-206.10.1111/j.1061-2971.2004.00323.xSearch in Google Scholar

Petráš, R., Pajtík, J., 1991: Sústava česko-slovenských objemových tabuliek drevín. Lesnícky časopis, 37:49–56.Search in Google Scholar

Pietrzykowski, M., 2014: Soil quality index as a tool for Scots pine (Pinus sylvestris) monoculture conversion planning on afforested, reclaimed mine land. Journal of Forestry Research, 25:63–74.10.1007/s11676-013-0418-xSearch in Google Scholar

Pietrzykowski, M., Krzaklewski, W., Likus, J., Woś, B., 2015: Assessment of english oak (Quercus robur L.) growth in varied soil-substrate conditions of reclaimed Piaseczno sulfur mine dump. Folia Forestalia Polonica, 57:28–32.10.1515/ffp-2015-0004Search in Google Scholar

Pielou, E. C., 1975: Ecological diversity. Wiley, New York, 165 p.Search in Google Scholar

Podrázský, V., Remeš, J., Ulbrichová, I., 2003: Biological and chemical amelioration effects on the localities degraded by bulldozer site preparation in the Ore Mts. – Czech Republic. Journal of Forest Science, 49:141–147.10.17221/4689-JFSSearch in Google Scholar

Prach, K., 1995: „Restaurační ekologie“ či ekologie obnovy? Vesmír, 74:143–144.Search in Google Scholar

Prach, K., Tichý, L., Lencová, K., Adámek, M., Koutecký, T., Sádlo, J. et al., 2016: Does succession run towards potential natural vegetation? An analysis across series. Journal of Vegetation Science, 27:515–523.10.1111/jvs.12383Search in Google Scholar

Prausová, R., Štefánek, M., Rauch, O., Kovář, P., 2017: Trees as ecosystem engineers driving vegetational restoration/retrogradation of industrial deposits in cultural landscape. Journal of Landscape Ecology, 10:122–131.10.1515/jlecol-2017-0015Search in Google Scholar

Pretzsch, H., 2007: Analysing and Modelling Forest Stand Dynamics for Practical Application – An European Review and Perspective. Eurasian Journal of Forest Science, 10:1–187.Search in Google Scholar

Rebele, F., Lehmann, C., 2016: Twenty years of woodland establishment through natural succession on a sandy landfillsite in Berlin, Germany. Urban Forestry & Urban Greening, 18:182–189.10.1016/j.ufug.2016.06.006Search in Google Scholar

Rejžek, M., Svátek, M., Šebesta, J., Adolt, R., Maděra, P., Matula, R., 2016. Loss of a single tree species will lead to an overal decline in plant diversity: Effect of Dracaena cinnabari Balf. F. on the vegetation of Socotra Island. Biological Conservation, 196:165–172.10.1016/j.biocon.2016.02.016Search in Google Scholar

Sádlo, J., Tichý, L., 2002: Sanace a rekultivace po lomové a důlní těžbě. ZO ČSOP Pozemkový spolek Hády, Brno, 36 p.Search in Google Scholar

Schadelin, W., 1931: Über Klasseneinteilung und Qualifikation der Waldbiiume. Schweizerische Zeitschrift für Forstwesen, 82:1–12.Search in Google Scholar

Shannon, C. E., 1948: A mathematical theory of communications. Bell System Technical Journal, 27:379–423.10.1002/j.1538-7305.1948.tb01338.xSearch in Google Scholar

Simon, J., Vacek, S., Buček, A., Šebesta, J., 2005: Růstová dynamika a stav lesních porostů na Dolech Bílina. Brno, LDF MZLU v Brně, 53 p.Search in Google Scholar

Sklenička, P., Charvatova, E., 2003: Stand continuity – a useful parameter for ecological networks in post-mining landscapes. Ecological Engineering, 20:287–296.10.1016/S0925-8574(03)00053-3Search in Google Scholar

Slonecker, E. T., Benger, M. J., 2001: Remote sensing and mountaintop mining. Remote Sensing Reviews, 20:293–322.10.1080/02757250109532440Search in Google Scholar

Sýkorová, Z., Rydlová, J., Slavíková, R., Ness, T., Kohout, P., Püschel, D., 2016: Forest reclamation of fly ash deposit: a field study on appraisal of mycorrhizal inoculation. Restoration Ecology, 24:184–193.10.1111/rec.12301Search in Google Scholar

Štrupl, M., 1960: Rekultivace uhelných výsypek. In: Jeník, J. et al., 1960: Tvorba a ochrana krajiny. Praha, Nakladatelství ČSAV, p. 68–72.Search in Google Scholar

Štýs, S., 2001: Proměny krajiny Severočeské hnědouhelné pánve. Sborník příspěvků z konference. In: Tvář naší země – krajina domova. 21. – 23. 2. 2001, Praha, Česká komora architektů, 5:145–158.Search in Google Scholar

Tittensor, D. P., Walpole, M., Hill, S. L. L., Boyce, D. G., Britten, G. L., Burgess, N.D. et al., 2014: A mid-term analysis of progress toward international biodiversity targets. Science, 346:241–244.10.1126/science.125748425278504Search in Google Scholar

ÚHÚL, 2003: Inventarizace lesů. Metodika venkovního sběru dat. Brandýs nad Labem, Forest Management Institute, 136 p.Search in Google Scholar

Ustaoglu, E., Williams, B., 2017: Determinants of Urban Expansion and Agricultural Land Conversion in 25 EU Countries. Environmental Management, 60:717–746.10.1007/s00267-017-0908-228685244Search in Google Scholar

Vacek, S., Lepš, J., Tesař, V., 1987: Skladba mladých březových porostů na Trutnovsku. Lesnictví, 33:343–360.Search in Google Scholar

Vacek, S., 1991: Porostotvorné schopnosti břízy a jeřábu pod vlivem imisí. Zprávy lesnického výzkumu, 36:19–23.Search in Google Scholar

Vacek, S., 1992: Struktura a vývoj mladých jeřábových a březových porostů. Opera corcontica, 29:85–121.Search in Google Scholar

Vacek, S., Simon, J., Podrázský, V., Baláš, M., Slávik, M., Mikeska, M. et al., 2009: Zakládání a stabilizace lesních porostů na bývalých zemědělských a degradovaných půdách. Kostelec nad Černými lesy, Lesnická práce, 792 p.Search in Google Scholar

Vacek, S., Vacek, Z., Kalousková, I., Cukor, J., Bílek, L., Moser, W. K. et al., 2018: Sycamore maple (Acer pseudoplatanus L.) stands on former agricultural land in the Sudetes – evaluation of ecological value and production potential. Dendrobiology, 79:61–76.10.12657/denbio.079.006Search in Google Scholar

Vacek, Z., Vacek, S., Podrázský, V., Král, J., Bulušek, D., Putalová, T. et al., 2016: Structural diversity and production of alder stands on former agricultural land at high altitudes. Dendrobiology, 75:31–44.10.12657/denbio.075.004Search in Google Scholar

WWF, 2016: Living Planet Report 2016. Risk and resilience in a new era. WWF International, Gland, Switzerland, 144 p.Search in Google Scholar