Effect of fertilization using communal sewage sludge on respiration activity and counts of selected microorganisms in the grey brown podzolic soil

• Autorzy: Wolna-Maruwka A , Klama J. , Niewiadomska A.
• Języki publikacji: EN

Abstrakty

EN

The objective of the performed investigation was to ascertain the impact of different doses of sewage sludge (2t, 4t and 8t d.m. sewage sludge-ha^year1) on the developmental dynamics of oligotrophic, copio- trophic, cellulolytic and proteolytic microorganisms. Soil samples for microbiological analyses were collected at six dates connected with the developmental phases of spring barley. The incorporation into the soil of organic matter in the form of sewage sludge resulted in a slight in­crease in the counts of all the analyzed groups of microorganisms. The performed statistical analysis showed a positive correlation between the intensity of the CO2 release and numbers of the discussed microorganisms in all fertilization treatments.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2007
• Tom: 16
• Numer: 6
• Opis fizyczny: p.899-907,fig.,ref

Twórcy

autor

Wolna-Maruwka A

• A. Cieszkowski Agricultural University in Poznan, Szydlowska 50, 60-656 Poznan, Poland

autor

Klama J.

autor

Niewiadomska A.

Bibliografia

• 1. GAWLIK T., SUMISŁAWSKI K., CHRZANOWSKI J. Effect of fertilization with sewage sludges on quality and yields of crop plants. In: Characteristics and management of sewage sludges. Conference materials, vol. III: Gdańsk, 74, 2000. [In Polish]
• 2. KALEMBASA S., KALEMBASA D., KANIA R. Fertilisa­tion value of sewage sludges from selected sewage treat­ment plants in the region of Siedlce. Zesz. Probl. Post. Nauk Roln. 475, 279, 2001. [In Polish]
• 3. PETERSEN S.O., PETERSEN J., RUBAEK G.H. Dynamics and plant uptake of nitrogen and phosphorus in soil amended with sewage sludge. Appl. Soil Ecol. 24, 187, 2003.
• 4. BIEN J. Problems of sludges management in small sewage treatment plants. In: Sewage and waste management in com­munes. Conference materials: Poznań.144, 1993. [In Pol­ish]
• 5. WÓJCIKOWSKA-KAPUSTA A., BARAN S., KRZYWY J. Effect of fertilisation of light soil with sewage sludges on yields of crop plants and zinc content in them. Acta Agroph. 73, 339, 2002. [In Polish]
• 6. KALEMBASA S., KUZIEMSKA B. Effect of sewage slud­ges on yields of selected crop plants and heavy metal content in them. Roczn. Gleb. XLII(3/4), 229, 1991. [In Polish]
• 7. SIUTA J. Natural utilisation of sewage sludges. Ekoinż. 2(3), 10, 1995. [In Polish]
• 8. ZAWIŚLAK J., BZOWSKI Z. Possibilities of management of sludges and other materials on communal waste landfills. In: Technique and technology in environmental protection. Conference materials: Lublin-Nałęczów, 179, 1996. [In Pol­ish]
• 9. GOSTKOWSKA K., WOYTOWICZ B., SZEMBER A., JAŚKIEWICZ W., FURCZAK J., JEZIERSKA-TYS S. Ef­fect of different fertilization agents on microbiological ac­tivity of loamy soil. Zesz. Prob. Post. Nauk Roln. 370, 65, 1989. [In Polish]
• 10. GARCIA A. C., HERNANDEZ T.,COSTA F., CECCANTI B. Biochemical parameters in soils regenerated by the addi­tion of organic wastes. Waste Manage. Res. 12, 457, 1994.
• 11. HORSWELL J., SPEIR T.W., VAN SCHAIK A.P. Bio-in­dicators to assess impact of heavy metals in land applied sewage sludge. Soil Biol. Biochem. 35, 1501, 2003.
• 12. Directive of the minister of agriculture and rural develop- ment.04.236.2369, 2004. [In Polish]
• 13. WEYMAN-KACZMARKOWA W. Interdependencies be­tween oligotrophic and copiotrophic bacteria in soils of dif­ferent mechanical structure. Polish J. Soil Sci. XXIX/1, 65, 1995.
• 14. WEYMAN-KACZMARKOWA W., PĘDZIWILK Z. The development of fungi as affected by pH and type of soil, in relation to the occurrence of bacteria and soil fungistatic activity. Microbiol. Res. 155, 107, 2000.
• 15. WYCZÓŁKOWSKI A.I., DĄBEK-SZRENIAWSKA M. Effect of organic matters differing in their solubility on the numbers and activity of soil microorganisms. Acta Agroph. 77, 349, 2002. [In Polish]
• 16. NGUYEN THI B.L., OBERTYŃSKA E. Effect of sewage sludge on some soil microorganisms under maize (Zea mays L) cultivation. Zesz. Prob. Post. Nauk Roln. 494, 305, 2003. [In polish]
• 17. CURTIN D., SELLES F., WANG H., CAMBELL C.A., BIEDERBECK V.O. Carbon dioxide emissions and transformation of soil carbon and nitrogen during wheat straw decompostion. Soil Sci. Soc. Am. J. 62, 1035, 1998.
• 18. ABNEE A.C., THOMPSON J.A., KOLKA R.K. Landscape modeling of in situ soil respiration in a forested watershed of southeastren Kentucky, USA. Environ. Manag. 33, 168, 2004.
• 19. NIELSEN M.N., WINDING A., BINNERUP S., HANSEN B.M., HENDRIKSEN N.B., KROER N. Microorganisms as indicators of soil health. Neri Technical Report No. 388, 45, 2002.
• 20. GLIŃSKI J., STĘPNIEWSKI W., ŁABUDA S. Oxygen up- taken and carbon dioxide release in soil environment. Prob. Agrofizyki, wyd. PAN, Wrocław: 1, 1983. [In Polish]
• 21. QUEMADA M., MENCHO E. Soil respiration 1 year af­ter sewage sludge application. Biol. Fertil. Soils. 33, 344, 2001.
• 22. SELIVANOVSKAYA S. YU., LATYPOVA V. Z., KIYAMO- VA S.N., ALIMOVA F. K. Use of microbial parameters to assess treatment methods of municipal sewage sludge ap­plied to grey forest soils of Tatarstan. Agricul., Ecosyst. And Eniv. 86, 145, 2001.
• 23. DEBOSZ K., PETERSEN S.O., KURE L.K., AMBUS P. Evaluating effects of sewage sludge and household compost on soil physical, chemical and microbiological properties. App. Soil Ecol. 19, 237, 2002.
• 24. GOŁĘBIOWSKA J., PĘDZIWILK Z. CO2 Release as index of biological activity of cultivated soils. Acta Microbiol. Po­lon. 33, 249, 1984.
• 25. HATTORI R., HATTORI T. Sensitivity to salts and organic compounds of soil bacteria isolated on diluted media. J. Gen. Appl. Microbial. 26, 1, 1980.
• 26. RODINA A. Microbiological methods of water analyses. PWRiL: Warszawa, 1968. [In Polish]
• 27. NOWAK A. Measurements of respiration in the evaluation of the impact of environmental conditions on soil microflo­ra. Post. Mikrob. XXV (3), 273, 1986. [In Polish]
• 28. FURCZAK J., JONIEC J. Studies upon influence of microbial and biochemical activities on a level of sludge crum­bling. Pol. J. Soil Sci. 35, 59, 2002.
• 29. JONIEC J., FURCZAK J. Response of protein-degrading microorganisms and proteolytic activity to the fortification of podzolic soil with municipal-industrial sewage sludges. Ekoinż. 11, 153, 2005. [In Polish]
• 30. WIELGOSZ E. Microbiological and enzymatic activity in brown soil under the cultivation of Sida hermaphrodita and Helianthus tuberosus. Annales UMCS. 35/36, 173, 1999. [In Polish]
• 31. PIETR S.J. Impact of the saprophytic microflora of the rhisosphere on plant growth. Post. Nauk Rol. 3, 19, 1990. [In Polish]
• 32. WIELGOSZ E. Effect of selected plants on the development of some associations of soil microorganisms, with particular emphasis on ammonification bacteria. Annales UMCS. 56, 175, 2001. [In Polish]
• 33. BARABASZ W., SMYK B. Microflora of exhausted soils. Zesz. Probl. Post. Nauk Rol. 452, 37, 1997. [In Polish]
• 34. BARABASZ W. Microbiological transformations of soil ni­trogen. Postępy Mikrob. 31, 3, 1992. [In Polish]
• 35. WYCZÓŁKOWSKI A.I., DĄBEK-SZRENIAWSKA M., KUCWAJ T., KSIĘŻOPOLSKA A., STAWIŃSKI J., JANCZYK K., KUŚ J. Complexes of selected soil microor­ganisms in gelation to the method of its cultivation. In: Eco­logically aspect of soil microbiology: Poznań, 357, 1998. [In Polish]
• 36. HU S.J., VAN BRUGGEN A.H.C., GRUNWALD N.J. Dy­namics of bacterial populations in relation to carbon avail­ability in a residue-amended soil. Appl. Soil Ecol. 13, 21 1999.
• 37. MARSCHNER P., KANDELER E., MARSCHNER B. Structure and function of the soil microbial community in a long-term fertilizer experiment. Soil Biol. Biochem. 35, 453, 2003.
• 38. JEZIERSKA-TYS S., FRĄC M., FIDECKI M. Effect of sewage sludges fertilisation derived from dairy plant on the transpirational activity and numbers of bacteria and fungi in brown soil. Zesz. Prob. Post. Nauk Roln. 506, 206, 2005. [In Polish]
• 39. SARATHCHANDRA S.U., PEROTT K.W., LITTLER R.A. Soil microbial biomass: Influence stimulated temperature changes on 2 size, activity and nutrient content. Soil Biol. Biochem. 21, 987, 1989.
• 40. LYNCH J.M., PANTING L.M. Cultivation and the soil bio­mass. Soil Biol. Biochem. 12, 29, 1980.
• 41. WOLNA-MARUWKA A., SAWICKA A. Effect of the fer­tilisation with municipal sewage sludge and farmyard ma­nure on the transpirational activity and total bacterial counts in grey Brown podzolic soil. Materials from the 40th National Microbiological Symposium "Microbial activity in different environments": Krakow-Arlamow, 82, 2006. [In Polish]
• 42. FRAC M., JEZIERSKA-TYS S., SZWED A. Changes in transpirational activity and numbers of soil bacteria and fungi as affected by the cultivation of spring wheat and fertilisation with sewage sludges from dairy plant. Materials from the 40th Na­tional Microbiological Symposium: Microbial activity in dif­ferent environments": Krakow-Arlamow. 19, 2006. [In Polish]
• 43. FERNANDES S.A.P., BETTIOL W., CERRI C.C. Effect of sewage sludge on microbial biomass, basal respiration, metabolic quotient and soil enzymatic activity. Geoderma. 25, 49, 2005.
• 44. STAMATIADIS S., DORAN J.W., KETTLER T. Field and laboratory evaluation of soil quality changes resulting from injection of liquid sewage sludge. Soil Plant Sc. 48, 1, 1999.
• 45. EMMERLING C., LIEBNER C., HAUBOLD-ROSAR M., KATZUR J., SCHODER D. Impact of application of organic waste materials on microbial and enzyme activities of mine soils in the Lusatian coal mining region. Plant Soil. 22, 129, 2000.
• 46. ISLAN K.R., WEIL R.R. Soil quality indicator properties in mid-Atlantic soils as influenced by conservation manage­ment. J. Soil Water Conserv. 55, 69, 2000.