Metrika

  • citati u SCIndeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:4
  • preuzimanja u poslednjih 30 dana:2

Sadržaj

članak: 5 od 86  
Back povratak na rezultate
2019, vol. 34, br. 2, str. 123-130
Mikrobiološka aktivnost u različitim tipovima zemljišta kao reakcija na primenu metribuzina
Institut za pesticide i zaštitu životne sredine, Beograd

e-adresaljiljkasantric@gmail.com
Projekat:
Proučavanje biljnih patogena, artropoda, korova i pesticida u cilju razvoja metoda bioracionalne zaštite bilja i proizvodnje bezbedne hrane (MPNTR - 31043)
Razvoj integrisanih sistema upravljanja štetnim organizmima u biljnoj proizvodnji sa ciljem prevazilaženja rezistentnosti i unapređenja kvaliteta i bezbednosti hrane (MPNTR - 46008)

Sažetak
Uticaj metribuzina na zemljišne mikroorganizme, njihovu enzimatsku aktivnost kao i nivo ostataka ovog herbicida u velikoj meri zavisi od tipa zemljišta i njihovih fizičko-hemijskih karakteristika. Postavljen je laboratorijski ogled da bi se utvrdio uticaj metribuzina na različite grupe mikroorganizama i dehidrogenaznu aktivnost u ilovači i peskuši. Takođe je određen nivo ostatka metribuzina u ovim zemljištima. Ispitivane su sledeće koncentracije. 12,0, 24,0, 120,0 i 1200,0 mg a.s. kg-1 zemljišta. Uzorci su uzeti 3,7, 14,30 i 45 dana nakon primene metribuzina. Uticaj metribuzina na ukupan broj bakterija je bio inibitornog karaktera kod oba tipa zemljišta, i kretao se od 6,9% za ilovaču do 7,9% za peskušu. Aktinomicete su u prvih četrnaest dana nakon primene metribuzina imale smanjenu brojnost za 15,6% u ilovači i 8,1 u peskuši. Međutim, od tridesetog dana broj se povećao ili bio na nivou kontrole. Broj gljiva u ilovači je bio povećan za 6,0% sedam dana nakon primene dve najveće koncentracije. U peskuši je brojnost ove grupe bila značajno smanjena za 29%. Primena metribuzina je značajno smanjila aktivnost enzima dehidrogenaza kod oba zemljišta. Jedino je najveća koncentracija u peskuši ispoljila stimulativan efekat (33,2 %). Rezultati degradacije su pokazali da su izmerene količine metribuzina opale sa vremenom kod oba tipa zemljišta i pri primeni sve četiri koncentracije. Može se zaključiti da je ekstrahovana količina aktivne materije metribuzina za sve primenjene koncentracije veća za zemljište tipa peskuša. Ovo ukazuje da je zbog većeg sadržaj organske mase i gline, zemljište tipa ilovače ispoljilo bolje sorpcione sposobnosti.
Reference
Banks, M.L., Kennedy, A.C., Kremer, R.J., Eivazi, F. (2014) Soil microbial community response to surfactants and herbicides in two soils. Applied Soil Ecology, 74: 12-20
Bouchard, D.C., Lavy, T.L., Marx, D.B. (1982) Fate of metribuzin, metolachlor, and fluometuron in soil. Weed Science, 30(6): 629-632
Cycoń, M., Piotrowska-Seget, Z. (2015) Biochemical and microbial soil functioning after application of the insecticide imidacloprid. Journal of Environmental Sciences, 27: 147-158
Đurović, R. (2011) Procesi koji određuju sudbinu pesticida u zemljištu. Pesticidi i fitomedicina, vol. 26, br. 1, str. 9-22
Đurović-Pejčev, R., Đorđević, T., Šantrić, Lj. (2012) Liquidsolid sample preparation followed by headspace solidphase microextraction determination of multiclass pesticides in soil. Journal of AOAC International, 95(5): 1331-1337
Gámiz, B., Velarde, P., Spokas, K.A., Hermosín, M. C., Cox, L. (2017) Biochar soil additions affect herbicide fate: Importance of application timing and feedstock species. Journal of Agricultural and Food Chemistry, 65(15): 3109-3117
Girvan, M.S., Bullimore, J., Pretty, J.N., Osborn, A.M., Ball, A.S. (2003) Soil type is the primary determinant of the composition of the total and active bacterial communities in arable soils. Applied and Environmental Microbiology, 69(3): 1800-1809
Henriksen, T., Svensmark, B., Juhler, R.K. (2004) Degradation and sorption of metribuzin and primary metabolites in a sandy soil. Journal of Environment Quality, 33(2): 619-627
Imberger, K.T., Chiu, C. (2002) Topographical and seasonal effects on soil fungal and bacterial activity in subtropical, perhumid, primary and regenerated montane forests. Soil Biology and Biochemistry, 34(5): 711-720
IUSS Working Group WRB (2015) World reference base for soil resources 2014: Update 2015: International soil classification system for naming soils and creating legends for soil maps. u: World soil resources reports, Rome: FAO, No. 106, http://www.fao.org/3/i3794en/I3794en.pdf
Jacobsen, C.S., Hjelmsø, M.H. (2014) Agricultural soils, pesticides and microbial diversity. Current Opinion in Biotechnology, 27: 15-20
Jarak, M., Đurić, S. (2006) Praktikum iz mikrobiologije / Practicum in microbiology. Novi Sad: Faculty of Agriculture
Kandeler, E., Stemmer, M., Klimanek, E. (1999) Response of soil microbial biomass, urease and xylanase within particle size fractions to long-term soil management. Soil Biology and Biochemistry, 31(2): 261-273
Li, H., Sheng, G., Teppen, B.J., Johnston, C.T., Boyd, S.A. (2003) Sorption and desorption of pesticides by clay minerals and humic acid-clay complexes. Soil Science Society of America Journal, 67(1): 122-131
Lone, A.H., Raverkar, K.P., Pareek, N. (2014) In-vitro effects of herbicides on soil microbial communities. Bioscan, 9(1); 11-16
Majumdar, K., Singh, N. (2007) Effect of soil amendments on sorption and mobility of metribuzin in soils. Chemosphere, 66(4): 630-637
Martin, S.L., Mooney, S.J., Dickinson, M.J., West, H.M. (2012) Soil structural responses to alterations in soil microbiota induced by the dilution method and mycorrhizal fungal inoculation. Pedobiologia, 55(5): 271-281
Mehdizadeh, M., Izadi-Darbandi, E., Naseri, P.Y.M.T., Rastgoo, M., Malaekeh-Nikouei, B., Nassirli, H. (2019) Impacts of different organic amendments on soil degradation and phytotoxicity of metribuzin. International Journal of Recycling of Organic Waste in Agriculture, In press
Mohiuddin, M., Mohammed, M.K. (2013) Influence of fungicide (Carbendazim) and herbicides (2, 4-D and Metribuzin) on non-target beneficial soil microorganisms of rhizospheric soil of tomato crop. IOSR Journal Of Environmental Science, Toxicology And Food Technology, 5(1): 47-50
Niewiadomska, A., Skrzypczak, G., Sobiech, Ł., Wolnamaruwka, A., Borowiak, K., Budka, A. (2018) The effect of diflufenican and its mixture with s-metolachlor and metribuzin on nitrogenase and microbial activity of soil under yellow lupine (Lupinus luteus L.). Tarım Bilimleri Dergisi - Journal of Agricultural Sciences, 24: 130-142
Pampulha, M.E., Ferreira, M.A.S.S., Oliveira, A. (2007) Effects of a phosphinothricin based herbicide on selected groups of soil microorganisms. Journal of Basic Microbiology, 47(4): 325-331
Parker, E.T., Owen, M.D.K., Bernards, M.L., Curran, W.S., Steckel, L.E., Mueller, T.C. (2018) A comparison of symmetrical and asymmetrical triazine herbicides for enhanced degradation in three midwestern soils. Weed Science, 66(5): 673-679
Radivojević, L., Šantrić, L., Stanković-Kalezić, R., Brkić, D., Janjić, V. (2003) Uticaj Metribuzina na brojnost i aktivnost nekih grupa zemljišnih mikroorganizama / Effects of metribuzin on the abundance and activity of some groups of soil microorganisms. Pesticidi, vol. 18, br. 2, str. 99-107
Rigi, M.R., Farahbakhsh, M., Rezaei, K. (2015) Adsorption and desorption behavior of herbicide metribuzin in different soils of Iran. Journal of Agricultural Science and Technology, 17, 777-787
Sebiomo, A., Ogundero, V.W., Bankole, S.A. (2011) Effect of four herbicides on microbial population, soil organic matter and dehydrogenase activity. African Journal of Biotechnology, 10(5): 770-778
Stemmer, M., Gerzabek, M.H., Kandeler, E. (1998) Invertase and xylanase activity of bulk soil and particle-size fractions during maize straw decomposition. Soil Biological Biochemistry, 31, 9-18
Šantrić, Lj., Radivojević, Lj., Gajić, U.J., Sarić-Krsmanović, M., Đurović-Pejčev, R. (2018) The effects of nicosulfuron and glyphosate on microbial activity of different soils. Planta Daninha, 36(0): e018159989-e018159989
Tabatabai, M.A. (1982) Soil enzymes. u: Page A.L, i dr. [ur.] Methods of soil analysis: Part 2: Chemical and microbiological properties, Medison, WI, USA: American Society of Agronomy (ASA), str. 903-935, https://dl.sciencesocieties.org/publications/books/pdfs/ agronomymonogra/methodsofsoilan2/frontmatter
Torsvik, V., Øvreås, L. (2002) Microbial diversity and function in soil: from genes to ecosystems. Current Opinion in Microbiology, 5(3): 240-245
Zaid, A.M., Mayouf, M., Farouj, Y.S. (2014) The effect of pre-emergent herbicides on soil microflora and N-fixing bacteria in pea field. International Journal of Sciences: Basic and Applied Research, 15(1): 131-138
 

O članku

jezik rada: engleski
vrsta rada: izvorni naučni članak
DOI: 10.2298/PIF1902123S
objavljen u SCIndeksu: 28.01.2020.
metod recenzije: dvostruko anoniman
Creative Commons License 4.0

Povezani članci