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2011, vol. 20, br. 1, str. 43-49
Uticaj sastava zemljišta na adsorpciju pendimetalina
Institut za pesticide i zaštitu životne sredine, Beograd

e-adresarajcica76@gmail.com
Projekat:
Proučavanje biljnih patogena, artropoda, korova i pesticida u cilju razvoja metoda bioracionalne zaštite bilja i proizvodnje bezbedne hrane (MPNTR - 31043)

Sažetak
U radu su predstavljeni rezultati uticaja organske materije i gline, kao najvažnijih sorpcionih komponenti zemljišta, na zadržavanje pendimetalina u ovom kompleksnom matriksu. U istraživanjima su korišćena tri tipa zemljišta (pseudoglej, černozem i rendzina) sa različitim sadržajem pomenutih zemljišnih komponenti. Priprema uzoraka zemljišta je vršena metodom mikroekstrakcije jedinjenja iz gasovite faze u čvrstoj fazi (HS-SPME). Detekcija i kvantifikacija pendimetalina u ovako dobijenim ekstraktima zemljišta je vršena gasno-masenim spektrometrom (GC-MS). Dobijeni rezultati ukazuju da sorpcija molekula pendimetalina za zemljišne čestice ne zavisi od tipa zemljišta pri manjim koncentracijama herbicida. Suprotno, fizičkohemijske specifičnosti svakog zemljišta određuju sorpciono ponašanje pendimetalina pri njegovim većim koncentracijama, pri čemu je zadržavanje pendimetalina u zemljištu pre svega određeno sadržajem organske materije.
Reference
*** (2000-2001) A pesticide manual: British Crop protection council. C D S Tomlin, 12th edition
Arienzo, M., Buondonno, A. (1993) Adsorption of paraquat by Terra Rossa soil and model soil aggregates. Toxicological & Environmental Chemistry, 39(3): 193
Bailey, G.W., White, J.L. (1964) Review of adsorption and desorption of organic pesticides by soil colloids, with implications concerning pesticide bioactivity. J Agric Food Chem, 12, 324
Barriuso, E., Baer, U., Calvet, R. (1992) Dissolved organic matter and sorption-desorption of dimefuron, atrazine and carbetamide by soils. Journal of Environmental Quality, 21: 359-367
Baskaran, S., Bolan, N.S., Rahman, A., Tillman, R.W. (1996) Pesticide sorption by allophanic and non-allophanic soils of New Zealand. J. Agric. Res, 39, str. 297-310
Bekbolet, M., Yenigun, O., Yucel, I. (1999) Sorption study of 2,4-D on selected soil. Water, Air, and Soil Pollution, 111(1/4): 75
Đurovic, R.D., Gajic-Umiljendic, J.S., Cupac, S.B., Ignjatovic, L.M. (2010) Solid Phase Microextraction as an Efficient Method for Characterization of the Interaction of Pesticides with Different Soil Types. Journal of the Brazilian Chemical Society, vol. 21, br. 6, str. 985-994
Đurović, R. (2010) Razvoj i primena metoda mikroekstrakcije u čvrstoj fazi za određivanje pesticida u različitim tipovima zemljišta. Beograd: Fakultet za fizičku hemiju, Doktorska disertacija
Hayes, M.H. (1970) Adsorption of triazine herbicides on soil organic matter, including a short review on soil organic matter chemistry. Residue Rev, 32: 131-74
Huang, P.M., Mckercher, R.B. (1984) Components and particle-size fractions involved in atrazine adsorption by soils. Soil Science, 138, str. 20-24
Janjić, V., Elezović, I. (2010) Pesticidi u poljoprivredi i šumarstvu u Srbiji. Beograd: Društvo za zaštitu bilja Srbije
Jenks, B.M., Roeth, F.W., Martin, A.R., Mccallister, D.L. (1998) Influence of surface and subsurface soil properties on atrazine sorption and degradation. Weed Science, 46: 132- 138
Malefyt, T., Duke, B.W. (1984) Pendimethalin to Velvetleaf (Abitilon theophrasti) and Powell Amaranth (Amaranthus powellii). Weed Science, 32, 520-524
Murphy, E.M., Zachara, J.M., Smith, S.C., Phillips, J.L. (1992) The sorption of humic acids to mineral surfaces and their role in contaminant binding. Science and Total Environment, 117-118, str. 413-423
Pignatelo, J.J., Xing, B. (1996) Mechanisms of slow sorption of organic chemicals to natural particles. Environmental Science & Technology, 30(1): 1
Savage, K.E., Jordan, T.N. (1980) Persistence of three dinitroaniline herbicides on the soil surface. Weed Science, 28, 105-110
Spaks, D.L. (1995) Environmental soil chemistry. San Diego: Academic Press
Stahnke, G.K., Shea, P.J., Tupy, D.R., Stougaard, R.N., Shearman, R.C. (1991) Pendimethalin dissipation in Kenucky Bluegrass Turf. Weed Science, 39, 97-103
Škorić, A., Filipovski, G., Ćirić, M. (1985) Klasifikacija zemljišta Jugoslavije. Sarajevo: Akademija nauka i umjetnosti Bosne i Hercegovine
Tomlin, C.D.S., ur. (2003) The pesticide manual British crop protection council. Farnham, UK: British Crop Protection Council
Triantafyllidis, V., Hela, D., Salachas, G., Dimopoulos, P., Albanis, T. (2009) Soil Dissipation and Runoff Losses of the Herbicide Pendimethalin in Tobacco Field. Water, Air, and Soil Pollution, 201(1-4): 253-264
van Reeuwijk, L.P. (2006) Procedures for soil analysis. Wageningen: ISRIC - FAO, Technical Report 9
Wauchope, R., Yeh, S., Linders, J.B.H.J., Kloskowski, R., Tanaka, K., Rubin, B., Katayama, A., Kördel, W., Gerstl, Z., Lane, M., Unsworth, J.B. (2002) Pesticide soil sorption parameters: theory, measurement, uses, limitations and reliability. Pest management science, 58(5): 419-45
Welhouse, G.J., Bleam, W.F. (1992) NMR spectroscopic investigation of hydrogen bonding in atrazine. Environmental Science & Technology, 26(5): 959
Welhouse, G.J., Bleam, W.F. (1993) Cooperative hydrogen bonding of atrazine. Environmental Science & Technology, 27, str. 594-500, a
 

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jezik rada: srpski
vrsta rada: naučni članak
objavljen u SCIndeksu: 27.03.2012.