Bouwman, A. F., Germon, J. C., 1998: Special Issue - Soils and climate change - Introduction. Biology ana Fertility of Soils, 27:219. Search in Google Scholar

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. Search in Google Scholar

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. Search in Google Scholar

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. Search in Google Scholar

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. Search in Google Scholar

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: Search in Google Scholar

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. Search in Google Scholar

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. Search in Google Scholar

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. Search in Google Scholar

Hillel, D., 1998: Environmental Soil Physics. San Diego, CA, Academac Press, 771A. Search in Google Scholar

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. Search in Google Scholar

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. Search in Google Scholar

Hraško, J., Červenka, L., Facek Z., Komár, J., Němeček, J., Pospíšil, F. et al., 1962: Rozbory pôd. Bratislava, Slovenské vydavateľstvo pôdohospodárskej literatúry, 342 p. Search in Google Scholar

Killham, K., 1994: Soil. Ecology. Cambridge, Cambridge University Press, 242 p. Search in Google Scholar

Kuzyakov, Y., 2006: Sources of CO2 efflux from soil and review of partitioning methods Soil Biology & Biochemistr, 38:425-448. Search in Google Scholar

Morén, A.-S., Lindroth, A., 2000: CO2 exchange at the floor of a boreal forest. Agricultural and Forest Meteorology, 101:1-14. Search in Google Scholar

Lukáč, T., 2005: Viacoperačné stroje v lesnom hospodárstve. Zvolen, Vydavateľstvo Technickej univerzity vo Zvolene, 137 p. Search in Google Scholar

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. Search in Google Scholar

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. Search in Google Scholar

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. Search in Google Scholar

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. Search in Google Scholar

Paul, E. A., Clark, F. E., 1989: Soil microbiology and Biochemistry. San Diego, CA, Academic Press, 273 p. Search in Google Scholar

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. Search in Google Scholar

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. Search in Google Scholar

Sanders, I. R., 1996: Plant-fungal interactions in a CO2-rich world. In: Carbon Dioxide, Populations and Communities, London, Academic Press, p. 266-272. Search in Google Scholar

Schachtschabel, P., Blume, H.-P., Hartage, K.-H., Schwertmann, U., 1984: Lehrbuch der Bodenkunde, Stuttgart, Enke, 394 p. Search in Google Scholar

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. Search in Google Scholar

Schimel, D. S., 1995: Terrestrial ecosystems and the carbon cycle. Global Change Biology, 1:77-91. Search in Google Scholar

Schürger, J., 2012: Zhodnotenie negatívneho vplyvu traktorových technológií na pôdu v lanovkových terénoch. Zvolen, Dizertačná práca, 198 p. Search in Google Scholar

Skoupý, A., 2011: Multikriteriálni hodnocení technologií pro soustřeďování dříví. Kostelec nad Černými lesy, Lesnická práce, 212 p. Search in Google Scholar

Stoyan, H., 2000: Spatial heterogeneity of soil respiration and related properties at the plant scale. Plant and soil, 222:203-214. Search in Google Scholar

Vaisala Oyj, 2012a: User’s guide Vaisala Carbocap ® Hand-Held Carbon Dioxide Meter GM70. Helsinki, Vaisala Oyj, 68 p. Search in Google Scholar

Vaisala Oyj, 2012b: Vaisala Application Note: How to measure CO2? Helsinki, Vaisala Oyj, 4 p. Search in Google Scholar

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. Search in Google Scholar

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Journal Subjects:
Life Sciences, Plant Science, Ecology, other