References
- Bouwman, A. F., Germon, J. C., 1998: Special Issue - Soils and climate change - Introduction. Biology ana Fertility of Soils, 27:219.
- Burton, A. J., Zogg, G. P., Pregitzer, K. S., Zak, D. R., 1997: Effect of measurement CO2 concentration on sugar maple root respiration. Tree Physiology, 17:421-427.
- Davidson, E. A., Belk, E., Boone, R. D., 1998: Soil moisture and temperature as independent or confounded factors controlling soil respiration in a temperate mixed hardwood forest, Global Change Biolog., 4:217-227.
- Dong, Y., Scharffe, D., Lobert, J. M., Crutzen, P. J., Sanhueza, E., 1998: Fluxes of CO2, CH4 and N2O from a temperate forest soil: the effects of leaves and humus layers. Tellus 50B, p. 243-252.
- Fang, C., Moncrieff, J. B., Gholz, H. L., Clark, K. L., 1998: Soil CO2 efflux and its spatial variation in a Florida slash pine plantation. Plant and Soil, 205:135-146.
- Gebauer, R., Neruda, J., Ulrich, R., Martinkova, M., 2012: Soil Compaction - Impact of Harvesters’ and Forwarders’ Passages on Plant Growt. In: Julio, J. Diez (ed.): Sustainable Forest Management - Current Research, Rijeka, CRO, InTec,. Available at: http://www.intechopen.com/books/sustainable-forestmanagement-current-research/impact-of-heavymachineson-the-soil-root-system-and-plant-growth.
- Goulden, M. L., Wofsy, S. C., Harden, J. W., Trumbore, S. E., Crill, P. M., Gower, S. T. et al., 1998: Sensitivity of boreal forest carbon balance to soil thaw. Science, 279:214-217.
- Güldner, O., 2002: Untersuchungen zu Bodenveränderungen durch die Holzernte in Sachsen und Entwicklung eines Konzepts zur ökologisch verträglichen Feinerschliessung von Waldbeständen. In: Tagungsbericht der Sektion Forsttechnik des Verbandes Deutscher Forstlicher Versuchsanstalten, Sopron, Hungary, 10 p.
- Hashimoto, S., Nobuaki, T., Suzuki, M., Inoue, A., Takizawa, H., Kosaka, I. et al., 2004: Soil respiration and soil CO2 concentration in a tropical forest, Thailand. Journal of Forest Research, 9:75-79.
- Hillel, D., 1998: Environmental Soil Physics. San Diego, CA, Academac Press, 771A.
- Hirano, T., Kim, H., 2003: Long-term half-hourly measurement of soil CO2 concentration and soil respiration in a temperate deciduous forest. Journal of Geophysical Research 108/D20: 4631.
- Howard, D. M., Howard, P. J. A., 1993: Relationships between CO2 evolution, moisture content and temperature for a range of soil types. Soil Biology. Biochemistr., 25:1537-1546.
- Hraško, J., Červenka, L., Facek Z., Komár, J., Němeček, J., Pospíšil, F. et al., 1962: Rozbory pôd. Bratislava, Slovenské vydavateľstvo pôdohospodárskej literatúry, 342 p.
- Killham, K., 1994: Soil. Ecology. Cambridge, Cambridge University Press, 242 p.
- Kuzyakov, Y., 2006: Sources of CO2 efflux from soil and review of partitioning methods Soil Biology & Biochemistr, 38:425-448.
- Morén, A.-S., Lindroth, A., 2000: CO2 exchange at the floor of a boreal forest. Agricultural and Forest Meteorology, 101:1-14.
- Lukáč, T., 2005: Viacoperačné stroje v lesnom hospodárstve. Zvolen, Vydavateľstvo Technickej univerzity vo Zvolene, 137 p.
- Londo, A. J., Messina, M. G., Schoenholtz, S. H., 1999: Forest harvesting effects on soil temperature, moisture, and respiration in a Bottomland hardwood forest. Soil Science Society of America Journal, 63:637-644.
- Nay, M., Mattson, K. G., Bormann, B. T., 1994: Biases of Chamber Methods for Measuring Soil CO2 Efflux Demonstrated with a Laboratory Apparatus. Ecology, 78:2460-2463.
- Neruda, J., Kadlec, J., Ulrich, R., Cudzik, A, 2010: Soil Carbon dioxide concentration and efflux changes in ruts after heavy machine passes, FORMEC 2010 Forest Engineering: Meeting the Needs of the Society and the Environment July 11 - 14, 2010, Padova - Italy Proceedings.
- Ohashi, M., Gyokusen, K., Saito, A., 1999: Measurement of carbon dioxide evolution from a Japanese cedar (Cryptomeria japonica D. Don) forest floor using an open-flow chamber method. Forest Ecology and Management, 123:105-114.
- Paul, E. A., Clark, F. E., 1989: Soil microbiology and Biochemistry. San Diego, CA, Academic Press, 273 p.
- Rayment, M. B., Jarvis, P. G., 2000: Temporal and spatial variation of soil CO2 efflux in a Canadian boreal forest. Soil Biology & Biochemistry, 32:35-45.
- Roy, J., Guillerm, J.-L., Navos, M.-L., Dhillion, S., 1996: Responses to elevated CO2 in Mediterranean old - field micrococosms: species community, and ecosystem components. In: Carbon Dioxide, Populations and Communities, London, Academic Press, p. 128-138.
- Sanders, I. R., 1996: Plant-fungal interactions in a CO2-rich world. In: Carbon Dioxide, Populations and Communities, London, Academic Press, p. 266-272.
- Schachtschabel, P., Blume, H.-P., Hartage, K.-H., Schwertmann, U., 1984: Lehrbuch der Bodenkunde, Stuttgart, Enke, 394 p.
- Schlentner, R. E., Van Cleve K., 1984: Relationships between CO2 evolution from soil, substrate temperature, and substrate moisture in four mature forest types in interior Alaska. Canadian Journal of Forestry Research, 15:97-106.
- Schimel, D. S., 1995: Terrestrial ecosystems and the carbon cycle. Global Change Biology, 1:77-91.
- Schürger, J., 2012: Zhodnotenie negatívneho vplyvu traktorových technológií na pôdu v lanovkových terénoch. Zvolen, Dizertačná práca, 198 p.
- Skoupý, A., 2011: Multikriteriálni hodnocení technologií pro soustřeďování dříví. Kostelec nad Černými lesy, Lesnická práce, 212 p.
- Stoyan, H., 2000: Spatial heterogeneity of soil respiration and related properties at the plant scale. Plant and soil, 222:203-214.
- Vaisala Oyj, 2012a: User’s guide Vaisala Carbocap ® Hand-Held Carbon Dioxide Meter GM70. Helsinki, Vaisala Oyj, 68 p.
- Vaisala Oyj, 2012b: Vaisala Application Note: How to measure CO2? Helsinki, Vaisala Oyj, 4 p.
- Xu, M., Qi, Y., 2001: Soil-surface CO2 efflux and its spatial and temporal variations in a young ponderosa pine plantation in northern California, Global Change Biology, 7:667- 677.