The changes in the eco-physiological status of the soil microbial coenosisof the cedar (Pinus sibirica) plantations are shown after the high-intensityfires, while the low-intensity fires did notexert the significant influence on the functional activity parameters of the soil microbial coenosis. Fires in the mixed-grass-reedgrass cedar (Pinus sibiri-ca)plantation result in greater transformation of the structure and quantity of the microorganismecological-trophic groupsand of the functional conditions of the soil microbial coenosis compared to the fires in the green moss cedar (Pinus sibirica) plantations.
cedar (Pinus sibirica) plantations, fires of different intensity, microbial biomass, basal respiration, ecological-trophic groups of microorganisms
1. Anan'eva N.D. Mikrobiologicheskie aspekty samoochischeniya i ustoychivosti pochv. - M.: Nauka, 2003. -222 s.
2. Anuchin N.P. Lesnaya taksaciya. - M.: Lesn. prom-st', 1982. - 552 s.
3. Pirogennaya transformaciya pochv sosnyakov sredney taygi Krasnoyarskogo kraya / I.N. Bezkorovaynaya, G.A. Ivanova, P.A. Tarasov [i dr.] // Sibirskiy ekologicheskiy zhurnal. - 2005. - № 1. - S. 143-152.
4. Bogorodskaya A.V., Ekimov E.V., Shishikin A.S. Vliyanie zhiznedeyatel'nosti uzkocherepnoy polevki (Mi-crorus gregalis Pall.) na aktivnost' mikrobocenozov pochvogruntov otvalov Borodinskogo burougol'nogo razreza // Vestnik KrasGAU. - 2013. - № 10. - S. 51-55.
5. Bogorodskaya A.V., Ivanova G.A., Tarasov P.A. Poslepozharnaya transformaciya mikrobnyh kompleksov pochv listvennichnikov Nizhnego Priangar'ya // Pochvovedenie. - 2011. - № 1. - S. 56-63.
6. Bogorodskaya A.V., Sorokin N.D. Mikrobiologicheskaya diagnostika sostoyaniya pirogenno izmenennyh pochv sosnyakov Nizhnego Priangar'ya // Pochvovedenie. - 2006. - № 10. - S. 1258-1266.
7. Koropachinskiy I.Yu., Vstovskaya T.N. Drevesnye rasteniya Aziatskoy Rossii. - Novosibirsk: Izd-vo SO RAN, 2002. - 707 s.
8. Kurbatskiy N.P. Issledovanie kolichestva i svoystv lesnyh goryuchih materialov // Voprosy lesnoy pirologii. - Krasnoyarsk: Izd-vo ILiD, 1970. - S. 5-58.
9. Kurbatskiy N.P. Problemy lesnyh pozharov // Vozniknovenie lesnyh pozharov. - M.: Nauka. 1964. -S. 5-60.
10. Metody pochvennoy mikrobiologii i biohimii / pod red. D.G. Zvyaginceva. - M.: Izd-vo MGU, 1991. -304 s.
11. Popova E.P. Pirogennaya transformaciya svoystv pochv Srednego Priangar'ya // Sibirskiy ekologicheskiy zhurnal. - 1997. - № 4. - S. 413-418.
12. Prokushkin S.G., Prokushkin A.S., Sorokin N.D. Intensivnost' razlozheniya otdel'nyh komponentov fitodetrita v listvennichnikah kriolitozony Sredney Sibiri // Izvestiya RAN. Ser. biol. - 2014. -№ 1. - S. 76-85.
13. Sorokin N.D. Vliyanie lesnyh pozharov na biologicheskuyu aktivnost' pochv // Lesovedenie. - 1983. -№ 4. - S. 24-28.
14. Sukachev V.N., Zonn S.V., Motovilov G.P. Metodicheskie ukazaniya k izucheniyu tipov lesa. - M.: Nauka, 1957. - 60 s.
15. Tarasov P.A., Ivanov V.A., Ivanova G.A. Osobennosti temperaturnogo rezhima pochv v sosnyakah sredney taygi, proydennyh nizovymi pozharami // Hvoynye boreal'noy zony. - 2008. - № 3-4. - S. 300304.
16. Anderson J.P.E., Domsch K.H. A physiological method for the quantitative measurement of microbial biomass in soils // Soil biol. and biochem. - 1978. - V. 10. - P. 314-322.
17. Anderson T.H., Domsch K.H. The metabolic quotient for CO2 (qCO2) as a specific activity parameter to assess the effects of environmental condition, such as, pH, on the microbial biomass of forest soil // Soil Biol. and Biochem. - 1993. - V. 25. - P. 393-395.
18. Certini G. Effects of fire on properties of forest soils: a review // Oecologia. - 2005. - V. 143. - P. 1-10.
19. Choromanska U., DeLuca T.H. Microbial activity and nitrogen mineralization in forest mineral soils following heating: evaluation of post-fire effects // Soil Biol. and Biochem. - 2002. - 34. - P. 263-271.
20. Fritze H., Pennanen T., Pietikainen J. Recovery of soil microbial biomass and activity from prescribed burning // Can. J. Forest Research. - 1993. - V.23. - P. 1286-1290.
21. Grasso G.H., Ripabelli G., Sammareo M.L. Effect of heating on the microbial population of grassland soil // The International Journal of Windland Fire. - 1996. - V.6 (2). - P. 67-70.
22. Hernandez T., Garcia C., Reinhardt I. Short-term effect of wildfire on the chemical, biochemical and microbiological properties of Mediterranean pine forest soils // Biology of Fertility of Soils. - 1997. - № 25. - R. 109116.
23. Pietikainen J., Fritze H. Microbial biomass and activity in the humus layer following burning: short-term effects of two different fires // Can. J. Forest Research. - 1993. - V.23. - P. 1275-1285.
24. Chemical composition of forest floor and consequences for nutrient availability after wildfire and harvesting in the boreal forest / E. Thiffault, K.D. Hannam, S.A. Quideau [et al.] // Plant and Soil. - 2008. - V. 308. - P. 37-53.
25. Vazquez F.J., Acea M.J., Carhallas T. Soil microbial populations after wildfire // Microbiology ecology. -1993. - V. 13. - P. 93-104.
26. Soil respiration and soil microbial biomass after fire in a sweet chestnut forest in southern Switzerland / C. Wuthrich, D. Schaub, M. Weber [et al.] // Catena. - 2002. - V. 48. - P. 201-215.
