Fungicidal composition containing iprovalicarb and fluoxastrobin and use of bactericidal composition
A technology of fluoxastrobin and a composition, applied in the field of bactericidal compositions, can solve the problem of no compounding of valmecarb and fluoxastrobin, and achieves reduction of pesticide dosage and cost, improvement of bactericidal effect, and prevention of excellent effect
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example 1
[0023] Physical measurement example 1: Toxicity determination of the combination of valitecarb and fluoxastrobin to the pathogen of Cypress blight
[0024] 1. Test object: Cypress blight pathogen [Latin scientific name: Rhizoctonia solani]
[0025] 2. Test method: Refer to the "Indoor Bioassay Test Guidelines for Pesticides NY / T 1156.2-2006", using the drug-containing medium method.
[0026] 3. Statistical analysis of data: SAS 6.12 statistical software was used 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 1156.2-2006", and evaluate the synergistic effect of drug mixture according to the co-toxicity coefficient method (CTC) of Sun & Johnson (1960), that is, CTC ≤ 80 is an antagonistic effect , 80<CTC<120 is an additive effect, and...
example 2
[0034] Physical measurement example 2: Toxicity determination of holly leaf spot pathogen in compound of valitecarb and fluoxastrobin
[0035] 1. Test object: holly leaf spot pathogen [Latin scientific name: Trochila cinerea]
[0036] 2. Test method: Refer to the "Indoor Bioassay Test Guidelines for Pesticides NY / T 1156.2-2006", using the drug-containing medium method.
[0037] 3. Statistical analysis of data: SAS 6.12 statistical software was used 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.
[0038] 4. Evaluation method: Refer to the "Pesticide Indoor Bioassay Test Guidelines NY / T 1156.2-2006", and evaluate the synergistic effect of drug mixture according to the co-toxicity coefficient method (CTC) of Sun & Johnson (1960), that is, CTC ≤ 80 is an antagonistic effect , 80<CTC<120 is an additive effect, and CTC≥120 is a ...
example 3
[0045] Physical measurement example 3: Toxicity determination of turf downy mildew pathogen in compound of valitecarb and fluoxastrobin
[0046] 1. Test object: lawn downy mildew pathogen [Latin scientific name: Sclerophthora macrospora (Sacc.) Thirum.]
[0047] 2. Test method: refer to "Pesticide Indoor Bioassay Test Guidelines NY / T 1156.3-2006", using the drug-containing medium method.
[0048] 3. Statistical analysis of data: SAS 6.12 statistical software was used for analysis. Calculate the mycelia growth inhibition rate (%) according to the test data, and obtain the virulence regression equation, correlation coefficient (r), EC50 and co-toxicity coefficient.
[0049] 4. Evaluation method: Refer to the "Indoor Bioassay Test Guidelines for Pesticides NY / T 1156.3-2006", and evaluate the synergistic effect of drug mixture according to the co-toxicity coefficient method (CTC) of Sun & Johnson (1960), that is, CTC≤80 is an antagonistic effect , 80
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