References
- BALDRIAN, P., ŠNAJDR, J., MERHAUTOVA, V., DOBIAŠOVA, P., CAJTHAMI, T., VALAŠKOVA, V.: Responses of the extracellular enzyme activities in hardwood forest to soil temperature and seasonality and the potential effects of climate change. Soil Biology and Biochemistry, 56: 60-68, 2013.
- DAS B., ASHIS CH., GHOSH S., CHAKRABARTI K.: Studies on the effect of pH and carbon sources on enzyme activities of some pectinolytic bacteria isolated from jute retting water. Turkish Journal of Biology, 35: 671-678, 2011
- FROSTEGARD A., BAATH E.: The use of phospholipid fatty acid analysis to estimate bacterial and fungal biomass in soil. Biology and Fertility of Soils, 22: 59-65, 1996.
- HAYANO K.: A method for the determination of b-glukosidase activity in soil. Soil Science and Plant Nutrition, 19: 103-108, 1973.
- HÖGBERG M.N., HÖGBERG P., MYROLD D.D.: Is microbial community composition in boreal forest soils determined by pH, C-to-N ratio, the trees, or all three? Oecologia, 150: 590-601, 2007.
- KAISER C., FUCHSLUENGER L., KORANDA M., GORFER M., STANGE C., KITZLER B., RASCHE F., STRAUSS J., SESSITSCH A., ZECHMEISTER-BOLTENSTERN S., RICHTER A.: Plants control the seasonal dynamics of microbial N cycling in a beech forest soil by belowground C allocation. Ecology, 92: 1036-1051, 2011.
- KANERVA S., KITUNEN V., KIIKKILÄ O., LOPONEN J., SMOLANDER A.: Response of soil C and N transformations to tannin fractions originating from Scots pine and Norway spruce needles. Soil Biology and Biochemistry, 38: 1364–1374, 2006.
- KILLHAM K.: Soil ecology. Cambridge: Cambridge University Press. p. 242, 1994.
- LENHARD G.: Die dehydrogenase aktivitat das Bodeusald Mass fur die Mikroorganizmentatigk eit im Boden. Z. Pflansenern. Dung Bodenkude, 73: 1-11, 1956.
- LIPSON D.A., SCHMIDT S.K.: Seasonal Changes in an Alpine Soil Bacterial Community in the Colorado Rocky Mountains. Applied Environmental Microbiology, 70 (5): 2867-2879, 2004.
- MANNINEN A.M., TARHANEN S., VUORINEN M., KAINULAINEN P.: Comparing the variation of needle and wood terpenoids in Scots pine provenances. Journal of Chemical Ecology, 28: 211–227, 2002.
- MENYAILO O.V., HUNGATE B.A., ZECH W.: Tree species mediated soil chemical changes in a Siberian artificial afforestation experiment: tree species and soil chemistry. Plant and Soil, 242: 171-182, 2002.
- MIKOLA P. : Experiment on the rate of decomposition of forest litter. Communicationes Instituti Forestalis Fenniae, 43: 1-50, 1954.
- NIEMINEN T.M., SMOLANDER A.: Forest under-storey vegetation and plant litter decomposition under three different dominant tree species. In: Räty, M., Bärlund, I., Makkonen, K., Kähkönen, M. & Esala, M. (eds.). Miten maamme makaa – Suomen maaperä ja sen tila. IV Maaperätieteiden päivien laajennetut abstraktit. Pro Terra 29: 54-55, 2006.
- PRIHA O., SMOLANDER A.: Microbial biomass and activity in soil and litter under Pinus sylvestris, Picea abies and Betula pendula at originally similar field afforestation sites. Biology and Fertility of Soils, 24: 45-51, 1997.
- PRIHA O., GRAYSTON S.J., HIUKKA R., PENNANEN T., SMOLANDER A.: Microbial community structure and characteristics of the organic matter in soils under Pinus sylvestris, Picea abies and Betula pendula at two forest sites. Biology and Fertility of Soils, 33: 17-24, 2001.
- ŠNAJDR J., VALÁŠKOVÁ V., MERHAUTOVÁ V., HERINKOVÁ J., CAJTHAML T., BALDRIAN P.: Spatial variability of enzyme activities and microbial biomass in the upper layers of Quercus petraea forest soil. Soil Biology and Biochemistry, 40: 2068–2075, 2008.
- THALMANN A.: Zur Methodik des Bestmmung des Dehydrogenase aktivitat im Bodenmittels TTC. Landiw Forch, 21: 249-258, 1968.
- THEUERL S., BUSCOT F.: Laccases: Toward disentagling their diversity and functions in relation tp soil organic matter cycling. Biology and Fertility of Soils, 46: 215-225, 2010.
- TROLLDENIER G.: Plate Count Technique. In: Franz Schinner, Ellen Kandeler, Richard Ohlinger, Rosa Margesin (eds.): Methods in Soil Biology…, Germany, Springer-Verlag Berlin Heideberg: 20-26, 1996.