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2013 | 27 | 2 |

Tytuł artykułu

Adsorption of glyphosate and aminomethylphosphonic acid in soils

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The results showed that glyphosate is initially adsorbed mostly in the upper 2 cm. It is than transported and adsorbed after few days in deeper soil horizons with concomitant increasing content of its metabolite aminomethylphosphonic acid. Moreover, Fe-oxides seem to be a key parameter for glyphosate and aminomethylphosphonic adsorption in soils. This study confirmed previous studies: the analysis showed lower contents of dithionite-soluble and Fe-oxides for the Chernozem, with consequently lower adsorption of glyphosate and aminomethylphosphonic as compared with the Cambisol and the Stagnosol.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

27

Numer

2

Opis fizyczny

p.203-209,fig.,ref.

Twórcy

autor
  • Department of Forest and Soil Sciences, Institute of Soil Research, University of Natural Resources and Life Sciences, Peter Jordan-Strasse 82, 1190 Vienna, Austria
  • Department of Forest and Soil Sciences, Institute of Soil Research, University of Natural Resources and Life Sciences, Peter Jordan-Strasse 82, 1190 Vienna, Austria
autor
  • Department of Forest and Soil Sciences, Institute of Soil Research, University of Natural Resources and Life Sciences, Peter Jordan-Strasse 82, 1190 Vienna, Austria
  • Department of Forest and Soil Sciences, Institute of Soil Research, University of Natural Resources and Life Sciences, Peter Jordan-Strasse 82, 1190 Vienna, Austria

Bibliografia

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  • Candela L., Álvarez-Benedi J., Condesso de Melo M.T., and Rao P.S.C., 2007. Laboratory studies on glyphosate transport in soils of theMaresme area nearBarcelona, Spain. Transport model parameter estimation. Geoderma, 140, 8-16.
  • Ghanem A., Bados P., EstaunA.R., de Alencastro L.F., Taibi S., Einhorn J., and Mougin C., 2007. Concentrations and specific loads of glyphosate, diuron, atrazin, nonylphenol and metabolites thereof in French urban sewage sludge. Chemosphere, 69, 1368-1373.
  • Gimsing A.L., Borggaard O.K., Jacobsen O.S., Aamand J., and Svvrensen J., 2004. Chemical and microbiological soil characteristics controlling glyphosate mineralization in Danish surface soils. Appl. Soil Ecol., 27, 233-242.
  • Haslmayr H.-P., 2010. “Rote Liste” schützenswerter Böden Österreichs: Eine Methode zur Definition von schützenswerten Bodenformen als Planungsgrundlage flächenwirksamer Landnutzungen. Dissertation, Universität für Bodenkultur, Wien, Austria.
  • Klik A., Trümper G., Baatar U., Strohmeier S., Liebhard P., Deim F.,Moitzi G., Schüller M., Rampazzo N., Mentler A., Rampazzo Todorovic G., Brauner E., Blum W.E.H., Köllensperger G., Hann S., Breuer G., Stürmer B., Frank S., Blatt J., Rosner J., Zwatz-Walter E., Bruckner R., Gruber J., Spiess R., Sanitzer H., Haile T.M., Selim S., Grillitsch B., Altmann D., Guseck C., Bursch W., und Führhacker M., 2010. Einfluss unterschiedlicher Bodenbearbeitungssysteme auf Kohlenstoffdynamik, CO2-Emissionen und das Verhalten von Glyphosat und AMPA im Boden. Endbericht. Forschungs Projekt nr.: 100069, GZ BMLFUW -LE.1.3.2/0130-II/1/2006, im Auftrag des BMLFUW in Kooperation mit den Bundesländern Niederösterreich und Steiermark. 299 S, Wien, Austria.
  • Landry D., Dousset S., Fournier J.-C., and Andreux F. 2005. Leaching of glyphosate and AMPA under two soil management practices in Burgundy vineyards (Vosne-Romanée, 21-France). Environ. Poll., 138, 191-200.
  • Locke M.A. and Zablotowicz R.M., 2004. Pesticides in soil – benefits and limitations to soil health. In: Managing Soil Quality: Challenges in Modern Agriculture (Eds P. Schjonning, S. Elmholt, B.T. Christensen). CABI Press, Oxfordshire, UK.
  • Mamy L., Barriuso E., and Gabrielle B., 2005. Environmental fate of herbicides trifularin, metazachlor, metamitron and sulcotrione compared with that of glyphosate, a substitute broad spectrum herbicide for different glyphosate-resistant crops. Pest. Manag. Sci., 61, 905-916.
  • Mentler A., Paredes M., and Fuerhacker M., 2007. Adsorption of glyphosate to cambisols, podzols and silica sand. Proc. ALVA Conf., May 21-22, Salzburg, Austria.
  • Morillo E., Undabeytia T., Maqueda C., and Ramos A., 2000. Glyphosate adsorption on soil of different characteristics: Influence of copper addition. Chemosphere, 40, 103-107.
  • Nestroy O., Danneberg O.H., Englisch M., Geßl A., Hager H., Herzberger E., Kilian W., Nelhiebel P., Pecina E., Pehamberger A., Schneider W., und Wagner J., 2000. Systematische Gliederung der Böden Österreichs (Österreichische Bodensystematik 2000). Mitt. der ÖBG, Heft 60, Wien, Austria.
  • Peruzzo P.J., Porta A.A., and Ronco A.E., 2008. Levels of glyphosate in surface waters, sediments and soils associated with direct sowing soybean cultivation in north pampasic region of Argentina. Environ. Poll., 156(1), 61-66.
  • Pessagno R.C., Torres Sánchez R.M, and dos Santos Afonso M., 2008. Glyphosate behavior at soil and mineral-water interferences. Environ. Poll., 153(1), 53-59.
  • Rampazzo Todorovic G.,Mentler A.,Rampazzo N., Blum W.E.H., Eder A., and Strauss P., 2010. Dispersion of glyphosate in soil through erosion. Environ. Quality, 4, 125-138.
  • Schnurer Y., Persson P., Nilsson M., Nordgren A., and Giesler R., 2006. Effects of surface sorption on microbial degradation of glyphosate. Environ. Sci. Technol., 40, 4145-4150.
  • Sorensen S.R., Schultz A., Jacobsen O.S., and Aamand J., 2006. Sorption, desorption and mineralisation of the herbicides glyphosate and MPCA in samples from two Danish soil and subsurface profiles. Environ. Poll., 141, 184-194.
  • Soulas G. and Lagacherie B., 2001.Modelling ofmicrobial degradation of pesticides in soils. Biol. Fertil. Soils, 33, 551-557.
  • WRB, 2006. World Soil Resources. Reports, No.103. FAO Press, Rome, Italy.
  • Zhou D.-M.,Wang Y.-J.,Cang L.,Hao X.-Z., and Luo X.-S., 2004. Adsorption and co-sorption of cadmium and glyphosate on two soils with different characteristics. Chem., 57, 1237- 1244.

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