[ACOSTA-MARTINEZ, V, MIKHA, MM & VIGIL, MF 2007, ‘Microbial communities and enzyme activities in soils under alternative crop rotations compared to wheat-fallow for the Central Great Plains’, Applied Soil Ecology, vol. 37, pp. 41-52.10.1016/j.apsoil.2007.03.009]Search in Google Scholar
[BREZA-BORUTA, B & PALUSZAK, Z 2006, ‘Occurrence of amylolytic microorganisms in soil depending on the type of cultivation’, Ecohydrology and Hydrobiology, vol. 6, pp. 175-180.10.1016/S1642-3593(06)70140-9]Search in Google Scholar
[FRĄC, M, LIPIEC, J, RUTKOWSKA, A, OSZUST, K, & PÓŁTORAK, M 2011, ‘Właściwości mikrobiologiczne gleby pod uprawą pszenicy ozimej w systemach ekologicznym i konwencjonalnym’, Acta Agrophysica, vol. 18, pp. 245-254.]Search in Google Scholar
[GÓRSKA, EB, RUSSEL, S, & ŁABĘTOWICZ, J 1999, ‘Wpływ wieloletniego nawożenia na występowanie tlenowych mezofilnych, przetrwalnikujących bakterii celulolitycznych w glebie’, Rocz. Probl. Post. Nauk Roln., vol. 465, pp. 505-516.]Search in Google Scholar
[HATAMI, S, ALIKHANI, HA, BESHARATI, H, SALEHRASTIN, N, AFROUSHEH, M, & YAZDANI JAHROMI, Z 2008, ‘Investigation on aerobic cellulolytic bacteria in some of north forest and farming soils’, American-Eurasian Journal of Agricultural & EnvironmentalScience, vol. 3, pp. 713-716.]Search in Google Scholar
[IRFAN, M, SAFDAR, A, SYED, Q, & NADEEM, M 2012, ‘Isolation and screening of cellulolytic bacteria from soil and optimization of cellulase production and activity’, Turkish Journal of Biochemistry, vol. 37, pp. 287-293.10.5505/tjb.2012.09709]Search in Google Scholar
[MARTYNIUK, S, GAJDA, A, & KUŚ, J 2001, ‘Microbiological and biochemical properties of soils under cereals grown in the ecological, conventional and integrated system’, Acta Agrophysica, vol. 52, pp. 185-192.]Search in Google Scholar
[MARTYNIUK, S, KSIĘŻNIAK, A, JOŃCZYK, K, & KUŚ, J 2007, ‘Charakterystyka mikrobiologiczna gleby pod pszenicą ozimą uprawianą w systemie ekologicznym i konwencjonalnym’, Journalof Research and Applications in Agricultural Engineering, vol. 52, pp. 113-116.]Search in Google Scholar
[MIJANGOS, I, PEREZ, R, ALBIZU, I, & GARBISU, C 2006, ‘Effects of fertilization and tillage on soil biological parameters’, Enzyme and Microbial Technology, vol. 40, pp. 100-106.10.1016/j.enzmictec.2005.10.043]Search in Google Scholar
[RUSSEL, S, GÓRSKA, E, & WYCZÓŁKOWSKI, AI 2005 ‘Enzymy biorące udział w hydrolizie celulozy’, Acta Agrophysica, vol. 3, pp. 27-36.]Search in Google Scholar
[SAWICKA, B, & KUŚ, J 2000, ‘Plon i jakość ziemniaka w zależności od systemu produkcji’, Pamiętnik Puławski, vol. 120, pp. 379-390.]Search in Google Scholar
[STRZELCZYK, E, & SZPOTAŃSKI, T 1989, ‘Cellulolytic and pectolytic activity of streptomycetes isolated from root-free soil, rhizosphere and mycorrhizosphere of pine (Pinus sylvestris L.)’, Biology and Fertility of Soils, vol. 7, pp. 365-369.10.1007/BF00257834]Search in Google Scholar
[ULRICH, A, KLIMKE, G, & WIRTH, S 2008, ‚Diversity and activity of cellulose-decomposing bacteria isolated from a sandy and a loamy soil after long-term manure application’, Microbial Ecology, vol. 55, pp. 512-522.10.1007/s00248-007-9296-017665240]Search in Google Scholar
[WIELGOSZ, E., & SZEMBER, A 2006, ‘Wpływ wybranych roślin na liczebność i aktywność drobnoustrojów glebowych’, Annales Universitatis Mariae Curie-Skłodowska, Sec. E 61, pp. 107-119.10.24326/as.2006.1.7]Search in Google Scholar
[WIRTH, S, & ULRICH, A 2002, ‚Cellulose-degrading potentials and phylogenetic classification of carboxymethyl-cellulose decomposing bacteria isolated from soil’, Systematic and AppliedMicrobiology, vol. 25, pp. 584-591.10.1078/0723202026051772412583719]Search in Google Scholar