Insecticidal composition containing diflubenzuron and cyclaniliprole
A technology of cyclotraniliprole and insecticidal composition, which is applied in the field of insecticidal composition, can solve problems such as the compounding of diflubenzuron and cyclotraniliprole, reduce the dosage and cost of pesticides, and reduce residues , the effect of prolonging the service life
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example 1
[0023] Physical measurement example 1: Toxicity determination of the combination of diflubenzuron and cyclotraniliprole against meadow borers
[0024] 1. Test object: Grass borer [Latin scientific name: Crambus teterrellus], which belongs to Lepidoptera Teterrellus.
[0025] 2. Test method: refer to the "Indoor Bioassay Test Guidelines for Pesticides NY / T 1156.7-2007", using the dipping method.
[0026] 3. Data statistical analysis: use SAS statistical software for analysis. Calculate the mycelia growth inhibition rate (%) according to the test data, and obtain the virulence regression equation, correlation coefficient (r), EC 50 and co-toxicity coefficient.
[0027] 4. Evaluation method: Refer to the "Pesticide Indoor Bioassay Test Guidelines NY / T 1156.7-2007", and evaluate the synergistic effect of the mixed use of pesticides according to the co-toxicity coefficient method (CTC) of Sun Yunpei (Sun-Y P) method, that is, CTC≤ 80 means antagonistic effect, 80<CTC<120 means a...
example 2
[0033] Physical Test Example 2: Determination of the Toxicity of Diflubenzuron and Cyclotraniliprole Compound to Grass Weevil
[0034] 1. Test object: Meadow weevil [Latin scientific name: Curcu lionidae], belonging to the family Weevilidae of Coleoptera
[0035] 2. Test method: refer to the "Indoor Bioassay Test Guidelines for Pesticides NY / T 1156.7-2007", using the dipping method.
[0036] 3. Data statistical analysis: use SAS statistical software for analysis. Calculate the mycelia growth inhibition rate (%) according to the test data, and obtain the virulence regression equation, correlation coefficient (r), EC 50 and co-toxicity coefficient.
[0037] 4. Evaluation method: Refer to the "Indoor Bioassay Test Guidelines for Pesticides NY / T 1156.7-2007", and evaluate the synergistic effect of pesticide mixing according to the co-toxicity coefficient method (CTC) of Sun-Y P method, that is, CTC≤ 80 means antagonistic effect, 80<CTC<120 means additive effect, and CTC≥120 mea...
example 3
[0043] Physical Test Example 3: Determination of the Toxicity of Diflubenzuron and Cyclotraniliprole Compound to Forest Pine Caterpillar
[0044] 1. Test object: forest pine caterpillar [Latin scientific name: Dendrolimus], belonging to Lepidoptera Lepidoptera.
[0045] 2. Test method: refer to the "Indoor Bioassay Test Guidelines for Pesticides NY / T 1156.7-2007", using the dipping method.
[0046] 3. Data statistical analysis: use SAS statistical software for analysis. Calculate the mycelia growth inhibition rate (%) according to the test data, and obtain the virulence regression equation, correlation coefficient (r), EC 50 and co-toxicity coefficient.
[0047]4. Evaluation method: Refer to the "Indoor Bioassay Test Guidelines for Pesticides NY / T 1156.7-2007", and evaluate the synergistic effect of pesticide mixing according to the co-toxicity coefficient method (CTC) of Sun-Y P method, that is, CTC≤ 80 means antagonistic effect, 80<CTC<120 means additive effect, and CTC≥1...
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