ja19840616 2010/12/28
[size=4][font='Times New Roman','serif']Through [/font][/size][size=4][font='Times New Roman','serif']field simulation test ,[/font][/size][size=4][font='Times New Roman','serif']it is found that the experimental plot treated with 15% bacterium fluid as [/font][/size][size=4][font='Times New Roman','serif']80 mg•kg[sup]-1[/sup][/font][/size][size=4][font='Times New Roman','serif'] achieves better final repair ability[/font][/size][size=4][font='Times New Roman','serif']. Correction degradation rate achieves up to 37.4%. In both treatments with [/font][/size][size=4][font='Times New Roman','serif']10% bacterium fluid as [/font][/size][size=4][font='Times New Roman','serif']60 mg•kg[sup]-1[/sup] and [/font][/size][size=4][font='Times New Roman','serif'] 15% bacterium fluid as [/font][/size][size=4][font='Times New Roman','serif']80 mg•kg[sup]-1[/sup] , the concentration of 2,2-dimethyl-3-(2,2-dichlorovinyl) cyclopropanecarboxylic acid reduces after rapidly reaching to the maximum value at 5d, while in both treatments with[/font][/size][size=4][font='Times New Roman','serif'] 15% bacterium fluid as [/font][/size][size=4][font='Times New Roman','serif']60 mg•kg[sup]-1[/sup] and [/font][/size][size=4][font='Times New Roman','serif'] 10% bacterium fluid as [/font][/size][size=4][font='Times New Roman','serif']80 mg•kg[sup]-1[/sup] , the concentrations of 2,2-dimethyl-3-(2,2-dichlorovinyl) cyclopropanecarboxylic acid slowly increase all the way , and finally tend to be consistent. The concentration of [url=http://www.chemyq.com/xz/xz10/90704fgsyf.htm][color=windowtext]3-[/color]p[color=windowtext]henoxybenzoic acid[/color][/url] [/font][/size][size=4][font=宋体]—[/font][/size][size=4][font='Times New Roman','serif'] the intermediate product in degradation process [/font][/size][size=4][font=宋体]—[/font][/size][size=4][font='Times New Roman','serif'] [/font][/size][size=4][font='Times New Roman','serif']reaches a maximum value at 3d, and then [/font][/size][size=4][font='Times New Roman','serif']gradually reduces, for which it is relatively lagged to reach a maximum value. [/font][/size] [size=4][font='Times New Roman','serif']2,2-dimethyl-3-(2,2-dichlorovinyl) cyclopropanecarboxylic acid [/font][/size][size=4][font='Times New Roman','serif']DCVA[/font][/size][size=4][font='Times New Roman','serif'][/font][/size] [size=4][font='Times New Roman','serif'][url=http://www.chemyq.com/xz/xz10/90704fgsyf.htm][color=windowtext]3-Phenoxybenzoic acid[/color][/url] 3-PBA [/font][/size][size=4][font='Times New Roman','serif'][/font][/size]
luoqinliang 2010/12/24
Field simulation block trials found that 80 mg 15% bacterium fluid, kg - 1 processing has good final repair ability, calibration degradation rate achieve results. 10% bacterium fluid 60 mg, kg - 1 and 15% bacterium fluid 80 mg, kg - 1 two processing methylene chloride chrysanthemum acid concentration increases rapidly in 5d appear to maximum after reduced and 15% bacterium fluid 60 mg, kg - 1 and 10% bacterium fluid 80 mg, kg - 1 with 2 always increase slowly and ultimately to converge. Degradation between middle product benzene oxygen radicals benzoic acid concentration in 3d appear a maximum after gradually reduce, appear a maximum value of relative lag time. The methylene chloride chrysanthemum acid DCVA Between benzene oxygen radicals benzoic acid 3 - PBA
luoqinliang
第2楼2010/12/24
Field simulation block trials found that 80 mg 15% bacterium fluid, kg - 1 processing has good final repair ability, calibration degradation rate achieve results. 10% bacterium fluid 60 mg, kg - 1 and 15% bacterium fluid 80 mg, kg - 1 two processing methylene chloride chrysanthemum acid concentration increases rapidly in 5d appear to maximum after reduced and 15% bacterium fluid 60 mg, kg - 1 and 10% bacterium fluid 80 mg, kg - 1 with 2 always increase slowly and ultimately to converge. Degradation between middle product benzene oxygen radicals benzoic acid concentration in 3d appear a maximum after gradually reduce, appear a maximum value of relative lag time.
The methylene chloride chrysanthemum acid DCVA
Between benzene oxygen radicals benzoic acid 3 - PBA
ja19840616
第5楼2010/12/28
Through field simulation test ,it is found that the experimental plot treated with 15% bacterium fluid as 80 mg•kg-1 achieves better final repair ability. Correction degradation rate achieves up to 37.4%. In both treatments with 10% bacterium fluid as 60 mg•kg-1 and 15% bacterium fluid as 80 mg•kg-1 , the concentration of 2,2-dimethyl-3-(2,2-dichlorovinyl) cyclopropanecarboxylic acid reduces after rapidly reaching to the maximum value at 5d, while in both treatments with 15% bacterium fluid as 60 mg•kg-1 and 10% bacterium fluid as 80 mg•kg-1 , the concentrations of 2,2-dimethyl-3-(2,2-dichlorovinyl) cyclopropanecarboxylic acid slowly increase all the way , and finally tend to be consistent. The concentration of 3-phenoxybenzoic acid — the intermediate product in degradation process — reaches a maximum value at 3d, and then gradually reduces, for which it is relatively lagged to reach a maximum value.
2,2-dimethyl-3-(2,2-dichlorovinyl) cyclopropanecarboxylic acid DCVA
3-Phenoxybenzoic acid 3-PBA
sharkwein
第6楼2010/12/29
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