Sterilization compound with metconazole and folpet and purposes of sterilization compound
A composition and technology for sterilizing dan, applied in the directions of fungicides, biocides, applications, etc., can solve the problems of no metconazole and sterilizing dan compounding, etc., reduce the dosage and cost of pesticides, and improve the sterilization effect , excellent preventive effect
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example 1
[0022] Physical measurement example 1: Toxicity determination of the compound of metconazole and fendan to Botrytis cinerea chrysanthemum
[0023] 1. Test object: Chrysanthemum cinerea [Latin name: Botrytis cinerea Pers.]
[0024] 2. Test method: Refer to the "Indoor Bioassay Test Guidelines for Pesticides NY / T 1156.2-2006", using the drug-containing medium method.
[0025] 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.
[0026] 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 syne...
example 2
[0032] Physical measurement example 2: Toxicity determination of the combination of metconazole and fendan against the leaf spot fungus
[0033] 1. Test object: Xanthomonas campestrispv.pelargoni]
[0034] 2. Test method: Refer to the "Indoor Bioassay Test Guidelines for Pesticides NY / T 1156.2-2006", using the drug-containing medium method.
[0035] 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.
[0036] 4. Evaluation method: Refer to the "Pesticide Indoor Bioassay Test Guidelines NY / T 1156.2-2006", according to the co-toxicity coefficient method (CTC) of Sun & Johnson (1960) to evaluate the synergistic effect of drug mixture, that is, CTC ≤ 80 is an antagonistic effect , 80<CTC<120 is an additive effect, and CTC≥120 is a synergistic effect.
[0037] ...
example 3
[0042] Physical measurement example 3: Toxicity determination of metconazole and fendan compound against rose black spot bacteria
[0043] 1. Test object: Chinese rose black spot fungus [Latin scientific name: Actinonema rosae]
[0044] 2. Test method: Refer to the "Indoor Bioassay Test Guidelines for Pesticides NY / T 1156.2-2006", using the drug-containing medium method.
[0045] 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.
[0046] 4. Evaluation method: Refer to the "Pesticide Indoor Bioassay Test Guidelines NY / T 1156.2-2006", according to the co-toxicity coefficient method (CTC) of Sun & Johnson (1960) to evaluate the synergistic effect of drug mixture, that is, CTC ≤ 80 is an antagonistic effect , 80<CTC<120 is an additive effect, and CTC≥120 is a...
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