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The study has been made to determine the effect of soil contamination with a new generation herbicide on the abundance and diversity of microorganisms, activity of soil enzymes and their tolerance to the herbicide Successor T 550 SE. Herbicide disturbed the biological balance of soil as expressed by the numbers and diversity of microorganisms and enzymatic activity. The recommended dose of herbicide significantly stimulated the growth of total oligotrophic and organotrophic bacteria as well as actinomycetes, depressed the activity of fungi and had no effect on oligotrophic sporulating bacteria and Azotobacter.
Czasopismo
Rocznik
Tom
Strony
15--27
Opis fizyczny
Bibliogr. 25 poz., tab., rys.
Twórcy
autor
- University of Warmia and Mazury, Department of Microbiology, Plac Łódzki 3, 10-727 Olsztyn, Poland
autor
- University of Warmia and Mazury, Department of Microbiology, Plac Łódzki 3, 10-727 Olsztyn, Poland
autor
- University of Warmia and Mazury, Department of Microbiology, Plac Łódzki 3, 10-727 Olsztyn, Poland
autor
- University of Warmia and Mazury, Department of Microbiology, Plac Łódzki 3, 10-727 Olsztyn, Poland
autor
- University of Warmia and Mazury, Department of Microbiology, Plac Łódzki 3, 10-727 Olsztyn, Poland
Bibliografia
- [1] MILOŠEVIĆ N.A., GOVEDARICA M.M., Effect of herbicides on microbial properties of soil, Proc. Nat. Sci., 2002, 102, 5.
- [2] BAĆMAGA M., BOROS E., KUCHARSKI J., WYSZKOWSKA J., Enzymatic activity in soil contaminated with the Aurora 40 WG herbicide, Environ. Prot. Eng., 2012, 38, 90.
- [3] KUCHARSKI J., WYSZKOWSKA J., Biological properties of soil contaminated with the herbicide Apyros 75 WG, J. Elem., 2008, 13, 357.
- [4] WYSZKOWSKA J., KUCHARSKI J., Biochemical and physicochemical properties of soil contaminated with herbicide Triflurotox 250 EC, Pol. J. Environ. Stud., 2004, 13, 223.
- [5] ARBELI Z., FUENTES C.L., Accelerated biodegradation of pesticides. An overview of the phenomenon, its basis and possible solutions and a discussion on the tropical dimension, Crop Prot., 2007, 26, 1733.
- [6] SHARMA P., SURI C.R., Biotransformation and biomonitoring of phenylurea herbicide Diuron, Bioresour. Technol., 2011, 102, 3119.
- [7] SKRZYPCZAK G.A., PUDEŁKO J.A., WANIOREK W., Assessment of the tank mixture of mesotrione and pethoxamid plus terbuthylazine efficacy for weed control in maize (Zea Mays L.), J. Plant Prot. Res., 2007, 47, 375.
- [8] ONTA H., HATTORI T., Oligotrophic bacteria on organic debris and plant roots in paddly field, Soil Biol. Biochem., 1983, 1, 1.
- [9] BUNT J.S., ROVIRA A.D., Microbiological studies of some subantarctic soil, J. Soil Sci., 1955, 6, 119.
- [10] FENGLEROWA W., Simple method for counting Azotobacter in soil samples, Acta Microbiol. Pol., 1965, 14, 203.
- [11] PARKINSON D., GRAY F.R.G., WILLIAMS S.T., Methods for studying the ecology of soil microorganism, Blackwell Scientific Publication, Oxford 1971.
- [12] MARTIN J., Use of acid rose Bengal and streptomycin in the plate method for estimating soil fungi, Soil. Sci., 1950, 69, 215.
- [13] DE LEIJ F.A.A.M., WHIPS J.M., LYNCH J.M., The use of colony development for the characterization of bacterial communities in soil and on roots, Microb. Ecol., 1993, 27, 81.
- [14] SARATHACHANDRA S.U., BURCH G., COX N.R., Growth patterns of bacterial communities in the rhizoplane and rhizosphere of white clover (Trifolium repens L.) and perennial ryegrass (Lolium perenne L.) in long-term pasture, Appl. Soil Ecol., 1997, 6, 293.
- [15] ÖHLINGER R., Dehydrogenase activity with the substrate TTC, [in:] F. Schinner, R. Öhlinger, E. Kandler, R. Margesin (Eds.), Methods in Soil Biology, Springer Verlag, Berlin 1996, 241.
- [16] ALEF K., NANNIPIERI P., Methods in Applied Soil Microbiology and Biochemistry, Academic Press, Harcourt Brace & Company Publishers, London 1998.
- [17] ORWIN K.H., WARDLE D.A., New indices for quantifying the resistance and resilience of soil biota to exogenous disturbances, Soil Biol. Biochem., 2004, 36, 1907.
- [18] Statsoft. Inc., 2010, Statistica, Data Analysis Software System.
- [19] ARAÙJO A.S.F., MONTEIRO R.T.R., ABARKELI R.B., Effect of glyphosate on the microbial activity of two Brazilian soil, Chemosphere, 2003, 52, 799.
- [20] CROUZET O., BATISSON I., BESSE-HOGGAN P., BONNEMOY F., BARDOT C., POLY F., BOHATIER J., MALLET C., Response of soil microbial communities to the herbicide mesotrione: A dose-effect microcosm approach, Soil Biol. Biochem., 2010, 42, 193.
- [21] CYCOŃ M., PIOTROWSKA-SEGET Z., Changes in bacterial diversity and community structure following pesticides addition to soil estimated by cultivation technique, Ecotoxicology, 2009, 18, 632.
- [22] MARTINEZ C.O., SILVA C.M.M.S., FAY E.F., MAIA A.H.N., ABAKERLI R.B., DURRANT L.R., Degradation of the herbicide sulfentrazone in a Brazilian Typic Haploudox soil, Soil Biol. Biochem., 2008, 40, 879.
- [23] SEBIOMO A., OGUNDERO W.V., BANKLOE S.A., Effect of four herbicides on microbial population, soil organic matter and dehydrogenase activity, Afr. J. Biotech., 2011, 10, 770.
- [24] SUKUL P., Enzymatic activities and microbial biomass in soil as influence by metalaxyl residues, Soil Biol. Biochem., 2006, 38, 320.
- [25] SAHA S., DUTTA D., KARMAKAR R., PRASAD RAY D., Structure–toxicity relationship of chloroacetanilide herbicides. Relative impact on soil microorganisms, Environ. Toxicol. Pharmacol., 2012, 34, 307.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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