[
Alef, K., 1991: Methodenhandbuch Bodenmikrobiologie. Aktivitäten, Biomasse, Differenzierung. Ecomed, Landesberg.
]Search in Google Scholar
[
Bárcenas-Moreno, G., García-Orenes, F., Mataix-Solera, J., Mataix-Beneyto, J., And Bååth, E., 2011: Soil microbial recolonisation after a fire in a Mediterranean forest. Biology and Fertility of Soils 47: 261-272.
]Search in Google Scholar
[
Barg, A. K., Edmonds, R. L., 1999: Influence of partial cutting on site microclimate, nitrogen dynamics, and microbial biomass in Douglas-fir stands in western Washington. Canadian Journal of Forest Research 29:705-713.
]Search in Google Scholar
[
Certini, G., 2005: Effects of fire on soil properties: a review. Oecologia 143:1-10.
]Search in Google Scholar
[
Clarke, N., Fischer, R., De Vries, W., Lundin, L., Papale, D., Vesala, T. et al., 2011: Availability, accessibility, quality and comparability of monitoring data for European forests for use in air pollution and climate change science. Journal of Biogeosciences and Forestry 4:162-166.
]Search in Google Scholar
[
Čerevková, A., Renčo, M., 2009: Soil nematode community changes associated with windfall and wildfire in forest soil at the High Tatras National Park, Slovak Republic. Helminthologia 46:123-130.
]Search in Google Scholar
[
Čerevková, A., Renčo, M., Cagáň, L., 2013: Short-term effects of forest disturbances on soil nematode communities in European mountain spruce forests. Journal of Helminthology 87:376 -385.
]Search in Google Scholar
[
Čuchta, P., Miklisová D., Kováč, Ľ., 2012: A three-year study of soil Collembola communities in spruce forest stands of the High Tatra Mts (Slovakia) after a catastrophic windthrow event. European Journal of Soil Biology 50:151-158.
]Search in Google Scholar
[
Čuchta, P., Miklisová D., Kováč, Ľ., 2013: The impact of disturbance and ensuing forestry practices on Collembola in monitored stands of windthrown forest in the Tatra National Park (Slovakia). Environmental Monitoring and Assessment DOI: 10.1007/s10661ns012ns2927nsz.
]Search in Google Scholar
[
Dilly, O., Blume, H. P., Munch, J. C., 2003: Soil microbial activities in Luvisols and Anthrosols during 9 years of region-typical tillage and fertilisation practices in northern Germany. Biogeochemistry 65:319-339.
]Search in Google Scholar
[
Fleischer, P., Homolová, Z. (eds.), 2011: Studies on Tatra National Park. Ecological consequences of windstorm 2004 on the High Tatra Mts. nature - monography. Štátne lesy TANAPu, Tatranská Lomnica.
]Search in Google Scholar
[
Gömöryová, E., Střelcová, K., Fleischer, P., Gömöry, D., 2011: Soil microbial characteristics at the monitoring plots on windthrow areas of the Tatra National Park (Slovakia): their assessment as environmental indicators. Environmental Monitoring and Assessment 174:31-45.
]Search in Google Scholar
[
Hill, M. O., 1973: Diversity and Eveness: A unifying notation and its consequences. Ecology 54:427-432.
]Search in Google Scholar
[
Hlásny, T., Csaba, M., Rupert, S., Kulla, L., Merganičová, K., Trombik, J. et al., 2014: Climate change increases the drought risk in Central European forests: What are the option for adaptation? Lesnícky časopis - Forestry Journal 60:5-18.
]Search in Google Scholar
[
Holden, S. R., Treseder, K. K., 2013: A meta-analysis of soil microbial biomass responses to forest disturbances. Frontiers in Microbiology 4: 163.
]Search in Google Scholar
[
Holmes, W. E., Zak, D. R., 1999: Soil microbial control of nitrogen loss following clearcut harvest in northern hardwood ecosystems. Ecological Application 9, 202-215.
]Search in Google Scholar
[
Insam, H., 1997: A new set of substrates proposed for community characterization in environmental samples. In: Insam, H., Rangger, A. (eds.): Microbial Communities. Functional versus Structural Approaches (p. 260-261). Springer, Heidleberg.
]Search in Google Scholar
[
Islam, K. R., Weil, R. R., 1998: Microwave irradiation of soil for routine measurements of microbial biomass carbon. Biology and Fertility of Soils 27:408-416.
]Search in Google Scholar
[
ICPP, 2013: <http://www.ipcc.ch/report/ar5/#,UvCyy02YZYg>
]Search in Google Scholar
[
Kandeler, E., 1993: Bestimmung der N-mineralisation im anaeroben Brutversuch. In: F. Schinner, R. Öhlinger, E. Kandeler E & R. Margesin (eds.): Bodenbiologische Arbeitsmethoden (p. 160-161). Springer Verlag, Berlin, Heidelberg, New York
]Search in Google Scholar
[
Khaziev, F. CH., 1976: Fermentativnaja aktivnost pochv. Metodiceskoje posobje, Moskva.
]Search in Google Scholar
[
Lindner, M., maroschek, m., netherer, s., kremer, a., barbati, a., garcia-gonzalo, j. et al., 2010: Climate change impacts, adaptive capacity, and vulnerability of European forest ecosystems. Forest Ecology and Management 259:698-709.
]Search in Google Scholar
[
Margesin, R., Minerbi, S., Schinner, F., 2014: Long-term monitoring of soil microbial activities in two sites in South Tyrol in the Italian Alps. Microbes and Environments DOI: 10.1264/ jsme2.ME14050.
]Search in Google Scholar
[
Nielsen, M. N., Winding, A., 2002: Microorganisms as indicators of soil health. NERI Technical Reports 388.
]Search in Google Scholar
[
SAS, 1988: SAS/STAT User s guide, Release 6.03 Edition. SAS Institute, Cary.
]Search in Google Scholar
[
Ulanova, N. G., 2000: The effect of windthrow on forests at different spatial scales: a review. Forest Ecology and Management 135:155-167.
]Search in Google Scholar
[
Urbanovičová, V., Miklisová, D., Kováč, Ľ., 2014: Forest disturbance enhanced the activity of epedaphic collembolan in windthrown stands of the High Tatra mountains. Journal of Mountain Science 11:449-463.
]Search in Google Scholar
