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Bacteriocidal composition containing Boscalid and triazole bactericide

A technology of boscalid and composition, which is applied in the field of bactericidal composition, can solve the problems of no application and high cost, and achieve the effects of improving bactericidal effect, overcoming resistance, and good synergistic effect

Active Publication Date: 2012-05-02
JIANGYIN SULI CHEM
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0008] Although boscalid has the above advantages, due to the high cost, there is almost no domestic application

Method used

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  • Bacteriocidal composition containing Boscalid and triazole bactericide
  • Bacteriocidal composition containing Boscalid and triazole bactericide
  • Bacteriocidal composition containing Boscalid and triazole bactericide

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0023] Physical measurement example 1: Toxicity determination of the combination of boscalid and hexaconazole to rice sheath blight

[0024] 1. Test object: rice sheath blight [Latin name: Thanatephorus cucumeris (Frank) Donk.]

[0025] 2. Test method: refer to "Pesticide Bioassay Test Guidelines NY / T 1156.5-2006", and use the drug-containing medium method.

[0026] 3. Statistical analysis of data: use SAS6.12 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 Bioassay Test Guidelines NY / T 1156.5-2006", and evaluate the synergistic effect of the 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 synergistic effect.

...

example 2

[0033] Physical Test Example 2: Determination of Toxicity of Boscalid and Difenoconazole Compound to Barley Leaf Rust

[0034] 1. Test object: barley leaf rust [Latin scientific name: Puccinia hordei Otth.]

[0035] 2. Test method: refer to the "Pesticide Bioassay Test Guidelines NY / T 1156.15-2008", and use the drug-containing medium method.

[0036] 3. Statistical analysis of data: use SAS6.12 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 "Pesticide Bioassay Test Guidelines NY / T 1156.15-2008", according to Sun & Johnson (1960) co-toxicity coefficient method (CTC) to evaluate the synergistic effect of drug mixing, that is, CTC ≤ 80 is an antagonistic effect, 80

[0038] 5. Results and analy...

example 3

[0043] Physical measurement example 3: Toxicity determination of the combination of boscalid and flutriazole to triticale leaf rust

[0044] 1. Test object: Triticale leaf rust [Latin scientific name: ccinia recondita=P.Recondita Roberge ex Desmaz.f.tritici]

[0045] 2. Test method: refer to the "Pesticide Bioassay Test Guidelines NY / T 1156.15-2008", and use the drug-containing medium method.

[0046] 3. Statistical analysis of data: use SAS6.12 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 "Pesticide Bioassay Test Guidelines NY / T 1156.15-2008", according to Sun & Johnson (1960) co-toxicity coefficient method (CTC) to evaluate the synergistic effect of drug mixing, that is, CTC ≤ 80 is an antagonistic effect, 80

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Abstract

The invention relates to a bacteriocidal composition and an application thereof. The bacteriocidal composition is characterized by comprising Boscalid (A) and at least one (B) selected from the following active components of a triazole bactericide: difenoconazole, propiconazole, tebuconazole, hexaconazole, flutriafol, epoxiconazole, tetraconazole, flusilazole, myclobutanil, cyproconazole, triazolone and diniconazole, wherein the mass ratio of A to B is (1:50)-(50:1). The composition can be applied to preventing and treating diseases of crops such as cereal crops, melons, fruits, vegetables and the like.

Description

(1) Technical field [0001] The present invention relates to a bactericidal composition and its application, specifically, the present invention relates to a bactericidal composition containing boscalid and at least one selected from triazole fungicides as active ingredients, and the bactericidal composition Use for preventing and controlling plant diseases. (2) Background technology [0002] boscalid [0003] English common name: Boscalid [0004] Chemical name: 2-Chloro-N-(4-chlorobiphenyl-2-yl)nicotinamide [0005] Structural formula: [0006] [0007] Boscalid is a new type of nicotinamide systemic fungicide newly developed in recent years. It has a wide bactericidal spectrum and is active against almost all types of fungal diseases. It is very effective for various rot diseases, and is also effective for other chemical-resistant bacteria. It is mainly used for the prevention and control of diseases including rapeseed, grapes, fruit trees, vegetables and field crop...

Claims

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Application Information

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IPC IPC(8): A01N43/653A01N43/40A01N55/10A01P3/00
Inventor 缪金凤汪静莉宋亚华
Owner JIANGYIN SULI CHEM
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