[Allen, M. S., Thapa, V., Arévalo, J. R., Palmer, M. W., 2012: Windstorm damage and forest recovery: accelerated succession, stand structure, and spatial pattern over 25 years in two Minnesota forests. Plant Ecology, 213:1833–1842.10.1007/s11258-012-0139-9]Search in Google Scholar
[Bondarchuk, S. N., 2015: Study of the Young Growth of Main Forest-forming Coniferous Species in the Primary Forests of the Sikhote-Alin Nature Reserve. Achievements in the Life Sciences, 9:37–50.10.1016/j.als.2015.05.006]Search in Google Scholar
[Diaci, J., Rozenbergar, D., Fiedej, G., Nagel, T. M., 2017: Challenges of uneven-aged silviculture in restoration of post-disturbance forests in Central Europe: a synthesis. Forests, 8:378.10.3390/f8100378]Search in Google Scholar
[Díaz, S., Pascual, U., Stenseke, M., Marín-López, B., Watson, R. T., Molnár, Z. et al., 2018: Assessing nature’s contributions to people. Science, 359:270–272.10.1126/science.aap882629348221]Search in Google Scholar
[Fidej, G., Rozman, A., Diaci, J., 2018: Drivers of regeneration dynamics following salvage logging and different silvicultural treatments in windthrow areas in Slovenia. Forest Ecology and Management, 409:378–389.10.1016/j.foreco.2017.11.046]Search in Google Scholar
[Fleischer, P., Pichler, V., Fleischer, P., Holko, L., Máliš, F., Gömöryová, E. et al., 2017: Forest ecosystem services affected by natural disturbance, climate and land-use changes in the Tatra Mountains. Climate Research 73:54–71.10.3354/cr01461]Search in Google Scholar
[Gregow, H., Laaksonen, A., Alper, M. E., 2017: ncreasing large scale windstorm damage in Western, Central and Northern European forests, 1951–2010. Scientific Reports, 7:1–7.10.1038/srep46397538887728401947]Search in Google Scholar
[Homolová, Z., Kyselová, Z., Šoltés, R., 2015: Dynamika vegetácie na kalamitných plochách v spoločenstve Lariceto-Piceetum. Štúdie o Tatranskom národnom parku, 44:191–199.]Search in Google Scholar
[Ilison, T., Köster, K., Vodde, F., Jogiste, K., 2007: Regeneration development 4-5 years after a storm in Norway spruce dominant forests, Estonia. Forest Ecology and Management, 250:17–24.10.1016/j.foreco.2007.03.022]Search in Google Scholar
[Jankovič, J. et al., 2007: Projekt revitalizácie lesných ekosystémov na území Vysokých Tatier postihnutom veternou kalamitou dňa 19. 11. 2004. Zvolen, NLC, 75 p.]Search in Google Scholar
[Kacálek, D., Mauer, O., Podrázský V., Slodičák, M. et al., 2017: Meliorační a zpevňující funkce lesních dřevin. Lesnická práce, 300 p.]Search in Google Scholar
[Konôpka, B., Zach, P., Kulfan, J., 2016: Wind – an important ecological factor and destructive agent in forests. Lesnícky časopis – Forestry Journal, 62:123–130.10.1515/forj-2016-0013]Search in Google Scholar
[Konôpka, B., Šebeň, V., Pajtík, J., 2019: Species composition and carbon stock of tree cover at a postdisturbance area in Tatra National Park, Western Carpathians. Mountain Research and Development, 39:71–80.10.1659/MRD-JOURNAL-D-19-00008.1]Search in Google Scholar
[Koreň, M., 2005: Vetrová kalamita 19 novembra 2004: nové pohľady a konsekvencie. Tatry, Special issue, 6–29.]Search in Google Scholar
[Kulla, L., Šmelko, Š., Šebeň, V., Rizman, I., Jankovič, J., 2007: Monitoring poškodených lesných ekosystémov Vysoké Tatry 2007. Metodika terénneho zberu údajov. Zvolen, NLC, 42 p.]Search in Google Scholar
[Landsberg, J., Sands, P., 2011: Physiological Ecology of Forest Production. Principles, Processes and Models. Amsterdam, Elsevier, 331 p.10.1016/B978-0-12-374460-9.00001-9]Search in Google Scholar
[Mackey, R. L., Currie, D. J., 2001: The diversity-disturbance relationship: is it generally strong and peaked? Ecology, 82:3479–3492.10.1890/0012-9658(2001)082[3479:TDDRII]2.0.CO;2]Search in Google Scholar
[Merganič, J., Russ, R., Beranová, J., Merganičová, K., 2009: Assessment of the impact of deer on the diversity of young trees in forest ecosystems in selected localities of the Czech Republic. Ekológia (Bratis-lava), 28:424–437.10.4149/ekol_2009_04_424]Search in Google Scholar
[Michalová, Z., Morrissey, R., Wohlgemuth, T., Bače, R., Fleischer, P., Svoboda, M., 2017: Salvage-logging after windstorm leads to structural and functional homogenization of understory layer and delayed spruce tree recovery in Tatra Mts., Slovakia. Forests, 8:88.10.3390/f8030088]Search in Google Scholar
[Ministry of Agriculture and Rural Development of the Slovak Republic, 2019: Report on Forestry in the Slovak Republic per year 2019 (Green Report). Bratislava, MARD, 66 p.]Search in Google Scholar
[Mitchell, S. J., 2013: Wind as a natural disturbance agent in forests: a synthesis. Forestry – an International Journal of Forest Research, 86:147–157.10.1093/forestry/cps058]Search in Google Scholar
[Orman, O., Dobrowolska, D., Szwagrzyk, J., 2018: Gap regeneration patterns in Carpathian old-growth mixed beech forests – Interactive effects of spruce bark beetle canopy disturbance and deer herbivory. Forest Ecology and Management, 430:451–459.10.1016/j.foreco.2018.08.031]Search in Google Scholar
[Pajtík, J., Konôpka, B., Bošeľa, M., Šebeň, V., Kaštier, P., 2015: Modelling forage potential for red deer: A case study in post-disturbance young stands of rowan. Annals of Forest Research, 58:91–107.10.15287/afr.2015.286]Search in Google Scholar
[Seidl, R., Schelhaas, M. J., Rammer, W., Verkerk, P. J., 2014: Increasing forest disturbances in Europe and their impact on carbon storage. Nature Climate Change, 4:806–810.10.1038/nclimate2318]Search in Google Scholar
[Szmyt, J., Dobrowolska, D., 2016: Spatial diversity of forest regeneration after catastrophic wind in northeast Poland. iForest – Biogeosciences and Forestry, 9:414–421.10.3832/ifor1699-008]Search in Google Scholar
[Šebeň, V., 2007: Praktická realizácia terestrickej monitorovacej siete na sledovanie vývoja poškodených lesných ekosystémov po veternej kalamite. Seminár: Pokalamitný výskum v TANAPe. Tatranská Lomnica, 25.10. 2007.]Search in Google Scholar
[Šebeň, V., 2010a: Prirodzená obnova po kalamite z novembra 2004 vo Vysokých Tatrách. In: Výskum smrečín destabilizovaných škodlivými činiteľmi. Vedecký recenzovaný zborník. Zvolen, NLC, LVÚ, Zvolen, p. 297–308.]Search in Google Scholar
[Šebeň, V., 2010b: Podiel a skladba prežívajúcej umelej obnovy na kalamitisku vo Vysokých Tatrách. In: Výskum smrečín destabilizovaných škodlivými činiteľmi. Vedecký recenzovaný zborník. Zvolen, NLC, LVÚ, Zvolen, p. 309–320.]Search in Google Scholar
[Šebeň, V., Bošeľa, M., Kulla, L., 2011: Terrestrial network for monitoring of revitalisation processes of the windfall and its surrounding in the High Tatra. Studies on Tatra National Park, 10:13–24.]Search in Google Scholar
[Šebeň, V., Konôpka, B., 2019: Vývoj kalamitiska vo Vysokých Tatrách do roku 2019 podľa terestrického monitoringu. Štúdie Tatranského národného parku, 13:9–25.]Search in Google Scholar
[Thom, D., Seidl, R., 2016: Natural disturbance impacts on ecosystem services and biodiversity in temperate and boreal forests. Biological Reviews, 91:760–781.10.1111/brv.12193]Search in Google Scholar
[Vološčuk, I. et al., 1994: Tatranský národný park. Martin, Gradus, 558 p.]Search in Google Scholar
[Wilkinson, D. M., 1999. The disturbing history of intermediate disturbance. Oikos, 84:145–147.10.2307/3546874]Search in Google Scholar