[Dale V. H. et al., 2001: Climate change and forest disturbances. BioSciences, 51:723-734.10.1641/0006-3568(2001)051[0723:CCAFD]2.0.CO;2]Search in Google Scholar
[Dixon, R. K., Brown, S., Houghton, R. A., Solomon, A. M., Trexler, M. C., Wisniewski, J., 1994: Carbon pools and flux of global forest ecosystems. Science, 263:185-190.10.1126/science.263.5144.185]Search in Google Scholar
[Fischer, A., Lindner, M., Abs, C., Lasch, P., 2002: Vegetation dynamics in central European forest ecosystems (near-nature as well as managed) after storm events. Folia Geobotanica, 37:14-32.10.1007/BF02803188]Search in Google Scholar
[Fleischer, P., Homolová, Z., 2012: Dlhodobý výskum ekologických pomerov v spoločenstve smrekovcových smrečín vo Vysokých Tatrách po prírodných disturbanciách. Lesnícky časopis - Forestry Journal, 57:237-250.10.1016/j.psfr.2012.09.003]Search in Google Scholar
[Gower, S. T., McMurtrie, R. E., Murty, D., 1996: Aboveground net primary production decline with stand age: potential causes. Tree, 11:378-382.10.1016/0169-5347(96)10042-2]Search in Google Scholar
[Hansen, E. M., 2014: Forest development and carbon dynamics after mountain pine beetle outbreak. Forest Science, 60:476-488.10.5849/forsci.13-039]Search in Google Scholar
[Karhu, K., Auffret, M. D., Dungait, A. J., Hopkins, D. W., Prosser, J. I., Singh, B. K. et al., 2014: Temperature sensitivity of soil respiration rates enhanced by microbial community response. Nature, 513:81-84.10.1038/nature13604]Search in Google Scholar
[Konôpka, B., 2003: Needle traces as indicators of growing conditions Scots pine (Pinus sylvestris L.). Journal of Forest Science, 49:1-10.10.17221/4669-JFS]Search in Google Scholar
[Konôpka, B., Pajtík, J., Noguchi, K., Lukac, M., 2013: Replacing Norway spruce with European beech: A comparison of biomass and net primary production patterns in young stands. Forest Ecology and Management, 302:185-192.10.1016/j.foreco.2013.03.026]Search in Google Scholar
[Konôpka, B., Pajtík, J., Šebeň, V., Bošeľa, M., 2015: Aboveground Net Primary Production of tree cover at the post-disturbance area in the Tatra National Park, Slovakia. Lesnícky časopis - Forestry Journal, 3:167-174.10.1515/forj-2015-0025]Search in Google Scholar
[Konôpka, B., Pajtík, V., Šebeň, V., 2016: Zmena zásob uhlíka v biomase lesných porastov vo Vysokých Tatrách v dôsledku veľkoplošnej disturbancie. Zprávy lesnickeho výzkumu, 61:239-246.]Search in Google Scholar
[Križová, E., Chovancová, G., Homolová, Z., 2010: Primárna produkcia nadzemnej biomasy bylinnej vrstvy na kalamitných plochách v Tatranskom národnom parku. Zvolen, Acta Facultatis Forestalis, 52:7-25.]Search in Google Scholar
[Kunca, A., Zúbrik, M., Vakula, J., Galko, J., Konôpka, B., Leontovyč, R. et al., 2016: Výskyt škodlivých činiteľov v lesoch Slovenska v rokoch 1960-2014, v roku 2015 a prognóza ich vývoja. Zvolen, Národné lesnícke centrum, 139 p.]Search in Google Scholar
[Liechy, H. O., Jurgensen, M. F., Mroz, G. D., Gale, M. R., 1997: Pit and mound topography and its influence on storage of carbon, nitrogen, and organic matter within an old-growth forest. Canadian Journal of Forest Research, 27:1992-1997.10.1139/x97-168]Search in Google Scholar
[Lindroth, A., Lagergre, F., Grelle, A., Klemedtsson, L., Langvall, O., Weslien, P. et al., 2009: Storms can cause Europe-wide reduction of forest carbon sink. Global Change Biology, 15:346-355.10.1111/j.1365-2486.2008.01719.x]Search in Google Scholar
[MacDicken, K. et al., 2015: Changes in Global Forest Resources from 1990-2015. Special issue of Forest Ecology and Management, 352:1-145.10.1016/j.foreco.2015.06.018]Search in Google Scholar
[Máliš, F., Konôpka, B., Maľová, M., 2013: Post-harvest biomass stock and productivity of Calamagrostis epigejos community under beech and spruce forest stands. Lesnícky časopis - Forestry Journal, 59:197-202.10.2478/v10114-011-0027-6]Search in Google Scholar
[Máliš, F., Fábry, R., Vodálová, A., 2015: Vývoj vegetácie smrekových lesov s rôznym manažmentom po vetrovej kalamite. In: Fleischer, P., Homolová, Z., Šturcel, M.: Štúdie o Tatranskom národnom parku, 11:207-217.]Search in Google Scholar
[Mäkelä, A., Valentine, H. T., 2001: The ratio of NPP to GPP: evidence of change over the course of stand development. Tree Physiology, 21:1015-1030.10.1093/treephys/21.14.101511560815]Search in Google Scholar
[Moran, A. et al., 2010: Climate Change. The Facts. Institute of Public Affairs of Australia, Victoria, 135 p.]Search in Google Scholar
[Report on Forestry in the Slovak Republic 2015 - Green Report, 2016. Bratislava, Ministry of Agriculture and Rural Development of the Slovak Republic, 76 p.]Search in Google Scholar
[Nikolov, Ch., Konôpka, B., Kajba, M., Galko, J., Kunca, A., Janský, L., 2014: Post-disaster forest management and bark beetle outbreak in Tatra National Park: Mountain Research and Development, 34:326-335.10.1659/MRD-JOURNAL-D-13-00017.1]Search in Google Scholar
[Økland, B., Nikolov, C., Krokene, P., Vakula, J., 2016: Transition from windfall-to patch-driven outbreak dynamics of the spruce bark beetle Ips typographus. Forest Ecology and Management, 363:63-73.10.1016/j.foreco.2015.12.007]Search in Google Scholar
[Palviainen, M., Finér, L., Mannerkoski, H., Piirainen, S., Starr, M., 2005: Changes in the above-and belowground biomass and nutrient pools of ground vegetation after clear-cutting of a mixed boreal forest. Plant and Soil, 275:157-167.10.1007/s11104-005-1256-1]Search in Google Scholar
[Pavlenda, P., Pajtík, J., Priwitzer, T., Bošeľa, M., Capuliak, J., Ďurkovičová, J. et al., 2011: Monitoring lesov Slovenska. Projekt FUTMONT, ČMS LESY 2010. Zvolen, Národné lesnícke centrum - Lesnícky výskumný ústav Zvolen, 205 p.]Search in Google Scholar
[Pyšek, P., 1991: Biomass production and size structure of Calamagrostis villosa populations in different habitats. Preslia, 63:9-20.]Search in Google Scholar
[Sander, C., Eckstein, D., 1994: Reconstruction of the foliation of Picea abies by means of needle traces. Scandinavian Journal of Forest Research, 9:311-315.10.1080/02827589409382845]Search in Google Scholar
[Schmidt-Vogt, H., 1977: Die Fichte. Band I. Taxonomie, Verbreitung, Morphologie, Ökologie, Waldgesellschaften. Parey, Hamburg, 472 p.]Search in Google Scholar
[Seidl, R., Schelhaas, M. J., Lexer, M. J., 2011: Unraveling the drivers of intensifying forest disturbance regimes in Europe. Global Change Biology, 17:2842-2852.10.1111/j.1365-2486.2011.02452.x]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/nclimate2318434056725737744]Search in Google Scholar
[Steppe, K., Niinemets, Ü., Teskey, R. O., 2011:. Tree size-and age-related changes in leaf physiology and their influence on carbon gain. In: Size-and age-related changes in tree structure and function. Springer Netherlands, p. 235-253.10.1007/978-94-007-1242-3_9]Search in Google Scholar
[Swanson, M. E., Franklin, J. F., Beschta, R. L., Crisafulli, C. M., DellaSala, D. A., Hutto, R. L. et al., 2011: The forgotten stage of forest succession: early-successional ecosystems on forest sites. Frontiers in Ecology and the Environment, 92:117-125.10.1890/090157]Search in Google Scholar
[Šebeň, V., 2011: Prirodzená obnova po kalamite z novembra 2004 vo Vysokých Tatrách. In: Výskum smrečín destabilizovaných škodlivými činiteľmi. Zvolen, Národné lesnícke centrum, p. 297-308.]Search in Google Scholar
[Šoltés, R., Školek, J., Homolová, Z., Kyselová, Z., 2010: Early successional pathways in the Tatra Mountains (Slovakia) forest ecosystems following natural disturbances. Biologia, 65:958-964.10.2478/s11756-010-0110-y]Search in Google Scholar
[Thorsen, J., Mavsar, R., Tyrväinen, L., Prokofieva, I., Stenger, A., 2014: The Provision of Forest Ecosystem Services. European Forest Institute, Joensuu, 73 p.]Search in Google Scholar
[Vološčuk I., Bohuš, I., Bublinec, E., Bohušová-Hradiská, H., Drdoš, J., Dúbravcová, Z. et al., 1994: Tatranský národný park. Martin, Gradus, 557 p.]Search in Google Scholar
[Williams, C. A., Vanderhoof, M. K., Khomik, M., Ghimire, B., 2014: Post-clearcut dynamics of carbon, water and energy exchanges in a midlaltitude temperate, deciduous broadleaf forest environment. Global Change Biology, 20:992-1007.10.1111/gcb.1238824142839]Search in Google Scholar
[Zhou, X., Peng, Ch., Dang, Q. L., 2006: Formulating and parameterizing the allocation of net primary productivity for modeling overmature stands in boreal forest ecosystems. Ecological Modeling, 195:264-272.10.1016/j.ecolmodel.2005.11.022]Search in Google Scholar