Pal Raktim, Chakrabarti Kalyan, Chakraborty Ashis, Chowdhury Ashim
Department of Agricultural Chemistry and Soil Science, Calcutta University, 35 Ballygunge Circular Road, Calcutta, Pin-700019, India.
Pest Manag Sci. 2005 Dec;61(12):1220-3. doi: 10.1002/ps.1114.
Dissipation of the fungicide pencycuron was examined under controlled laboratory conditions in clay loam soils from rice cultivated fields of alluvial soil (Typic udifluvent) and coastal saline soil (Typic endoaquept) at field rate, twice the field rate and 10 times the field rate with and without decomposed cow manure maintained at 60% of maximum water-holding capacity (WHC) and waterlogged soil condition. The half-life values depended on the initial concentrations of pencycuron. Pencycuron, in general, degraded fastest in coastal saline soil and in soil amended with decomposed cow manure at 60% of maximum WHC of soil.
在可控实验室条件下,研究了在冲积土(典型潮湿新成土)稻田的粘壤土和滨海盐土(典型潮湿始成土)中,按照田间施用量、两倍田间施用量和十倍田间施用量,在保持最大持水量(WHC)60%的有和没有添加腐熟牛粪的情况下以及在渍水土壤条件下,杀菌剂戊菌隆的消解情况。半衰期值取决于戊菌隆的初始浓度。一般来说,戊菌隆在滨海盐土以及添加了相当于土壤最大持水量60%的腐熟牛粪的土壤中降解最快。