Laboratory studies on formation of bound residues and degradation of propiconazole in soils.

Laboratory studies on the formation of bound residues and on the degradation of the triazole fungicide propiconazole were conducted in two different soils. Soils treated with 14C-propiconazole were incubated at 22 degrees C and extracted exhaustively with a solvent at each sampling date until no further propiconazole was extracted. The solvent-extractable residues were used to measure propiconazole remaining in the soil, and the extracted soils were used to investigate bound residues of propiconazole. Mineralization of propiconazole was investigated by measuring [14C]carbon dioxide evolved from the soil samples. Formation of bound residues of propiconazole was higher in silty clay loam soil than in sandy loam soil, giving approximately 38 and 23% of the applied 14C, respectively. In contrast, the rates of degradation and mineralization of propiconazole were lower in silty clay loam soil than in sandy loam soil. Decreased extractability of the 14C residues with incubation time was observed with increased formation of bound residues. When the propiconazole remaining in the solvent-extractable residues was quantitatively measured by high-pressure liquid chromatographic analysis, the half-life value in sandy loam soil was about 315 days, while the half-life in silty clay loam soil exceeded the duration of the 1 year experimental period. Increased formation of bound residues was observed as propiconazole degraded with incubation time, suggesting that degradation products are involved in the formation of bound residues. Our study suggests that the formation of bound residues of propiconazole contributes to the persistence of this fungicide in soil.

[1]  O. Eklo,et al.  Sorption of bentazone, dichlorprop, MCPA, and propiconazole in reference soils from Norway. , 2001, Journal of environmental quality.

[2]  B. Branham,et al.  Effect of turfgrass cover and irrigation on soil mobility and dissipation of mefenoxam and propiconazole. , 2001, Journal of environmental quality.

[3]  O. Lode,et al.  Laboratory degradation studies of bentazone, dichlorprop, MCPA, and propiconazole in Norwegian soils. , 2001, Journal of environmental quality.

[4]  C. Munier-Lamy,et al.  Effect of a triazole fungicide on the cellulose decomposition by the soil microflora. , 2000, Chemosphere.

[5]  K. Westergaard,et al.  The toxicity of the fungicide propiconazole to soil flagellates , 2000, Biology and Fertility of Soils.

[6]  P. Burauel,et al.  Formation and long-term fate of non-extractable residues in outdoor lysimeter studies. , 2000, Environmental pollution.

[7]  R. Bromilow,et al.  Factors affecting degradation rates of five triazole fungicides in two soil types: 2. Field studies , 1999 .

[8]  R. Bromilow,et al.  Factors affecting degradation rates of five triazole fungicides in two soil types: 1. Laboratory incubations , 1999 .

[9]  I. Kim,et al.  Behaviour of Fungicide $^{14}C-Propiconazole$ in Rice Plant Grown-Lysimeter Soil , 1999 .

[10]  I. Kim,et al.  Behaviour of Fungicide $^{14}C-Propiconazole$ in a Lysimeter of Sandy Loam , 1998 .

[11]  Shahamat U. Khan,et al.  Extractable and Nonextractable (Bound) Residues of Acifluorfen in an Organic Soil , 1997 .

[12]  S. Christensen,et al.  The effect of three different pesticides on soil protozoan activity , 1994 .

[13]  S. Elmholt Effect of propiconazole on substrate amended soil respiration following laboratory and field application , 1992 .

[14]  R. Loeffler,et al.  Effects of Sterol Biosynthesis Inhibitor Fungicides on Growth and Sterol Composition of Ustilago maydis, Botrytis cinerea and Pyrenophora teres , 1992 .

[15]  A. G. Hornsby,et al.  The SCS/ARS/CES pesticide properties database for environmental decision-making. , 1992, Reviews of environmental contamination and toxicology.

[16]  W. Matthews An investigation of the non-solvent-extractable residues of [14C]chlorpyrifos-methyl in stored wheat , 1991 .

[17]  G. Basarab,et al.  The chemistry and biological activity of a new class of azole fungicides: 1-amino-1,2,4-triazoles , 1991 .

[18]  M. Rohmer,et al.  The action of the systemic fungicides tridemorph and fenpropimorph on sterol biosynthesis by the soil amoeba Acanthamoeba polyphaga. , 1987, European journal of biochemistry.

[19]  M. Sancholle,et al.  Effects of triazoles on fungi: I. Growth and cellular permeability☆ , 1984 .