Natural Conditions for Heliophilous Tree-Species Following Forest Dieback in Temperate Zone After Periglacial Habitats

Augustin, S., Bolte, A., Holzhausen, M., Wolff, B. (2005). Exceedance of critical loads of nitrogen and sulphur and its relation to forest conditions. European Journal of Forest Research 124: 289–300. Search in Google Scholar

Binney, H., Edwards, M., Macias-Fauria, M., Lozhkin, A., Anderson, P., Kaplan, J.O., Andreev, A., Bezrukova, E., Blyakharchuk, T., Jankovská, V., Khazina, I., Krivonogov, S., Kremenetski, K., Nield, J., Novenko, E., Ryabogina, N., Solovieva, N., Willis, K., Zernitskaya, V. (2017). Vegetation of Eurasia from the last glacial maximum to present: Key biogeographic patterns. Quaternary Science Reviews 157: 80–97. Search in Google Scholar

Culek, M., Grulich, V. (2009). Biogeographical division. 1:500,000. In: Hrčianová T., Mackovčin P., Zvara I. (eds.), Landscape Atlas of the Czech Republic. Ministry of Environment (pp. 195–196), The Silva Tarouca Research Institute for Landscape and Ornamental Gardering, Prague. Search in Google Scholar

Douda, J., Havrdová, A., Mandák, B. (2015). What do modecular data tell us about glacial refugia of Central-European woody plants? Bulletin of the Czech Botanical Society 50: 283– 300. Search in Google Scholar

Elznicová, J., Brůna, V., Černohouz, O., Dolanský, T., Ehertová, J., Halušková, M., Holešinský, O., Jarošová, K., Jiskrová, P., Kosinská, J., Najmanová, D., Novák, P., Novotný, P., Pacina, J., Pérez, R., Wojtaszeková, K. (2012). Využití geoinformačních technologií pro hodnocení krajiny přeshraniční oblasti Česko-Saské Švýcarsko. (The use of the geoinformation technologies for landscape assessment in the Czech-Saxon Switzerland cross-border area). FŽP UJEP, Ústí nad Labem [in Czech]. Search in Google Scholar

Feest, A. (2006). Establishing Baseline Indices for the Quality of the Biodiversity of Restored Habitats Using a Standardized Sampling Process. Restoration Ecology 14: 112– 122. Search in Google Scholar

Hájek, F., Strejček, R., Lukeš, P., Kantorová, M. (2019). Kurovcovamapa.cz. Pomůcka vlastníků lesů pro monitoring rizika šíření kůrovců. In: GIS Ostrava – Smart City, Smart Region. VŠB-TU Ostrava: #5. Search in Google Scholar

Hlásný, T., Barcza, Z., Fabrika, M., Balázs, B., Churkina, G., Pajtík, J., Sedmák, R., Turčáni, M. (2011). Climate change impacts on growth and carbon balance of forests in Central Europe. Climate Research 47: 219–236. Search in Google Scholar

Hlásný, T., Merganičová, K., Modlinger, R., Marušák, R., Löwe, R., Turčáni, M. (2021). Prognosis of bark-beetle outbreak and a new platform for the dissemination of information about the forests in the Czech Republic. Reports of Forestry Research 66: 197–205. Search in Google Scholar

Jankovská, V. (2006). Late Glacial and Holocene history of Plešné Lake and its surrounding landscape based on pollen and palaeoalgological analyses. Biologia 61 Supplementum: 371– 385. Search in Google Scholar

Jankovská, V., Pokorný, P. (2008). Forest vegetation on the last full-glacial period in the Western Carpathians (Slovakia and Czech Republic). Preslia 80: 307–324. Search in Google Scholar

Kanevskiy, M., Shur, Y., Walker, D.A., Jorgenson, T., Raynolds, M.K., Peirce, J.L., Jones, B.M., Buchhorn, M., Matyshak, G., Bergstedt, H., Breen, A.L., Connor, B., Daanen, R., Liljedahl, A., Romanovsky, V.E., Watson-Cook, E. (2022). The shifting mosaic of ice-wedge degradation and stabilization in response to infrastructure and climate change, Prudhoe Bay Oilfield, Alaska, USA. Arctic Science 8: 498–530. Search in Google Scholar

Knížek, M., Liška, J. (eds.) (2021). Occurence of forest damaging agents in 2020 and forecast for 2021. Zpravodaj ochrany lesa 27 Supplementum: 1–76. Search in Google Scholar

Konôpka, J., Konôpka, B., Nikolov, C. (2008). Salvage cuts analysis in slovakia with regard to harmful agents and altitudinal vegetation zones. Reports of Forestry Research 53: 308– 317. Search in Google Scholar

Krzyszkowski, D., Przybylski, B., Badura, J. (2000). The role of neotectonics and glaciation on terrace formation along the Nysa Kłodzka River in the Sudeten Mountains (southwestern Poland). Geomorphology 33: 149–166. Search in Google Scholar

Lindner, M., Maroszek, M., Netherer, S., Kremer, A., Barbati, A., Garcia-Gonzalo, J., Seidl, R., Delzon, S., Corona, P., Kolström, M., Lexer, M.J., Marchetti, M. (2010). Climate change impacts, adaptive capacity, and vulnerability of European forest ecosystems. Forest Ecology and Management 259: 698–709. Search in Google Scholar

Lukeš, P., Strejček, R., Křístek, Š., Mlčouček, M. (2018). Forest health assessment in Czech Republic using Sentinel-2 satellite data. Forest Management Institute Brandýs nad Labem. Search in Google Scholar

Lukeš, P. (2021). Monitoring of Bark Beetle Forest Damages. In: Södergård C., Mildorf T., Habyarimana E., Berre A.J., Fernandes J.A., Zinke-Wehlmann C. (eds.), Big Data in Bioeconomy (pp. 351–349). Results from the European DataBio Project. Springer, New York. Search in Google Scholar

Machar, I. (2012). Applying landscape ecology in conservation and management of the floodplain forest (Czech Republic). Palacký University Olomouc. Search in Google Scholar

Magri, D., Vendramin, G. G., Comps, B., Dupanloup, I., Geburek, T., Gömöry, D., Latałowa, M., Litt, T., Paule, L., Roure, J. M., Tantau. I., van der Knaap, W. O., Petit, R. J. & de Beaulieu, J.-L. (2006). A new scenario for the Quarternary history of European beech populations: palaeobotanical evidence and genetic consequences. New Phytologist 171: 199– 221. Search in Google Scholar

Máslo, J., Adolt, R., Kučera, M., Kohn, I. (2023). Národní inventarizace lesů v České republice. Výsledky třetího cyklu 2016–2020. (National forest inventory in the Czech Republic. Results of the third cycle 2016-2020). ÚHÚL Brandýs nad Labem [in Czech]. Search in Google Scholar

Müller, U.C., Pross, J., Bibus, E. (2003). Vegetation response to rapid climate change in Central Europe during the past 140,000 yr based on evidence from the Füramoos pollen record. Quaternary Research 59: 235–245. Search in Google Scholar

Neuhäuslová, Z., Blažková, D., Grulich, V., Husová, M., Chytrý, M., Jeník, J., Jirásek, J., Kolbek, J., Kropáč, Z., Ložek, V., Moravec, J., Prach, K., Rybníček, K., Rybníčková, E., Sádlo, J. (1998). Map of Potential Natural Vegetation of the Czech Republic /Text part/. Academia, Prague. Search in Google Scholar

Paoletti, E., Schaub, M., Matyssek, R., Wisser, G., Augustaitis, A., Bastrup-Birk, A.M., Bytnerowicz, A., Günthardt-Goerg, M.S., Müller-Starck, G., Serengil, Y. (2012). Advances of air pollution science: From forest decline to multiple-stress effects on forest ecosystem services. Environmental Pollution 158: 1986–1989. Search in Google Scholar

Pokorný, P. (2005). Role of man in the development of Holocene vegetation in Central Bohemia. Preslia 77: 113–128. Search in Google Scholar

Pokorný, P., Jankovská, V., Horáček, I. (2015). Bohemian Hercynides versus Western Carpathians: a crucial biogeographic boundary of Europe during the last glacial epoch. Bulletin of the Czech Botanical Society 50: 165–180. Search in Google Scholar

Pommerening, A., Grabarnik, P. (2019). Individual-Based Methods in Forest Ecology and Management. Springer International Publishing, Berlin-Heidelberg. Search in Google Scholar

Pommerening, A., Murphy, S.T. (2004). A review of the history, definitions and methods of continuous cover forestry with special attention to afforestation and restocking. Forestry 77: 27–44. Search in Google Scholar

Prentice, I. C., Guiot, J., Huntley, B., Jolly, D., Cheddadi, R. (1996). Reconstructing biomes from palaeoecological data: a general method and its application to European pollen dat at 0 and 6 ka. Climate Dynamics 12: 185–194. Search in Google Scholar

Puettmann, K.J., Ammer, C. (2007). Trends in North American and European regeneration research under the ecosystem management paradigm. European Journal of Forest Research 126: 1–9. Search in Google Scholar

Puhe, J., Ulrich, B. (2001). Global climate change and human impacts on forest ecosystems: postglacial development, present situation, and future trends in Central Europe. Springer-Verlag Berlin Heidelberg. Search in Google Scholar

Samec, P., Voženílek, V., Vondráková, A., Macků, J. (2018). Diversity of forest soils and bedrock in soil regions of the Central-European Highlands (Czech Republic). Catena 160: 95–102. Search in Google Scholar

San-Miguel-Ayanz, J., de Rigo, D., Caudullo, G., Houston Durrant, T., Mauri, A. (eds.) (2016). European Atlas of Forest Tree Species. European Commission, Luxembourg. Šindelář, J. (1995). A preliminary report on autochthonous species composition of forests in the territory of the Czech Republic. Lesnictví-Forestry 41: 293–299. Search in Google Scholar

Souček, J., Špulák, O., Leugner, J., Pulkrab, K., Sloup, R., Jurásek, A., Martiník, A. (2016). Two-phase regeneration of forest stand on large calamity originated clear-cuts with utilisation of nurse stand. Lesnický průvodce 10/2016: 1–42. Search in Google Scholar

Svenning, J.-C., Normand, S., Kageyama, M. (2008). Glacial refugia of temperate trees in Europe: insights from species distribution modelling. Journal of Ecology 96: 1117–1127. Search in Google Scholar

Taberlet, P., Fumagalli, L., Wust-Saucy, A.-G., Cosson, J.-F. (1998). Comparative phylogeography and postglacial colonization routes in Europe. Molecular Ecology 7: 453–464. Search in Google Scholar

Tarasov, P.E., Volkova, V.S., Webb, III T., Guiot, J., Andreev, A.A., Bezusko, L.G., Bezusko, T.V., Bykova, G.V., Dorofeyuk, N.I., Kvavadze, E.V., Osipova, I.M., Panova, N.K., Sevastyanov, D.V. (2000). Last glacial maximum biomes recosntructed from pollen and plant macrofossil data from nothern Eurasia. Journal of Biogeography 27: 609–620. Search in Google Scholar

Treml, V., Mašek, J., Tumajer, J., Rydval, M., Čada, V., Ledvinka, O., Svoboda, M. (2022). Trends in climatically-driven extreme growth reductions of Picea abies and Pinus sylvestris in Central Europe. Global Change Biology 28: 557-570. Search in Google Scholar

Trnka, M., Vizina, A., Hanel, M., Balek, J., Fischer, M., Hlavinka, P., Semerádová, D., Štěpánková, P., Zahradníček, P., Skalák, P., Eitzinger, J., Dubrovský, M., Máca, P., Bělínová, M., Zeman, E., Brázdil, R. (2022). Increasing available water capacity as a factor for increasing drought resilience or potential conflict over water resources under present and future climate conditions. Agricultural Water Management 264: 107460. Search in Google Scholar

Vacek, S., Vacek, Z., Remeš, J., Bílek, L., Hůnová, I., Bulušek, D., Putalová, T., Král, J., Simon J. (2017). Sensitivity of unmanaged relict pine forest in the Czech Republic to climate change and air pollution. Trees 31: 1599–1617. Search in Google Scholar

Wagner, N.D., He, L., Hörandl, E. (2021). The Evolutionary History, Diversity, and Ecology of Willows (Salix L.) in the European Alps. Diversity 13: #146. Search in Google Scholar

Walentowski, H., Falk, W., Mette, T., Kunz, J., Bräuning, A., Meinardus, C., Zhang, C., Sutcliffe, L., Leuschner, C. (2017). Assessing future suitability of tree speciesunder climate change by multiple methods: a case study in southern Germany. Annals of Forest Research 60: 101–126. Search in Google Scholar

Whitehouse, N.J. (2006). The Holocene British and Irish ancient forest fossil beetle fauna: implications for forest history, biodiversity and faunal colonisation. Quaternary Science Reviews 25: 1755–1789. Search in Google Scholar