Khoury R, Geahchan A, Coste C M, Antoun M A, Kawar N S
Agricultural Department, Agronomic Research Institute, Fanar, Lebanon.
J Environ Sci Health B. 2001 Nov;36(6):741-54. doi: 10.1081/PFC-100107408.
The retention and fate of triadimefon fungicide were studied under two environmental conditions. Field studies were conducted on two soils, a sandy loam soil (Fanar) and a clay soil (Raouda). Fanar is a wet coastal area while Raouda is a dry agricultural area of the Bekaa plain located at an elevation of 870 m above sea level. Triadimefon was applied with a jet sprayer at 267 g a.i.ha(-1) and 200 g a.i.ha(-1) at Fanar and Raouda, respectively. Reconstituted soil columns (600 x 30 mm) glasses, were used to study the fungicide movement and metabolism in the two soils. Analyses of triadimefon and its metabolites were carried out using gas chromatography (GC) and high performance liquid chromatography (HPLC). The results indicated a weak reversibility of the adsorbed fraction in the clay soil. Clay is considered an important factor in triadimefon adsorption. Triadimefon mobility in the sandy-loam soil was relatively high in comparison with behavior in the clay soil where about half of the applied fungicide was detected in the upper 25 cm of soil, six days after treatment. Rapid degradation of triadimefon to triadimenol was observed in the two soils. The observed half-life was 8 days in sandy-loam and 13 days in clay soils.
在两种环境条件下研究了三唑酮杀菌剂的残留与归宿。在两种土壤上进行了田间试验,一种是砂壤土(法纳尔),另一种是黏土(拉乌达)。法纳尔是湿润的沿海地区,而拉乌达是贝卡平原的干旱农业区,海拔870米。在法纳尔和拉乌达,分别使用喷雾器以267克有效成分/公顷和200克有效成分/公顷的用量施用三唑酮。使用重构的土柱(600×30毫米)玻璃柱来研究杀菌剂在这两种土壤中的移动和代谢。采用气相色谱(GC)和高效液相色谱(HPLC)对三唑酮及其代谢物进行分析。结果表明,黏土中吸附部分的可逆性较弱。黏土被认为是三唑酮吸附的一个重要因素。与黏土中的情况相比,三唑酮在砂壤土中的移动性相对较高,处理后6天,在黏土上层25厘米的土壤中检测到约一半施用的杀菌剂。在这两种土壤中均观察到三唑酮迅速降解为三唑醇。观察到的半衰期在砂壤土中为8天,在黏土中为13天。