CN112189668B - Fungicidal and bacterial composition and application - Google Patents

Abstract

The invention relates to a fungicidal and bactericidal composition and a method of use thereof, the composition comprising A, B two active ingredients, wherein ingredient A is selected from compounds of formula I:

Description

Fungicidal and bacterial composition and application

Technical Field

The invention belongs to the field of agricultural bactericides, and particularly relates to a fungicidal and bactericidal composition and application thereof.

Background

Chinese invention patent CN201611199611.9 and PCT application WO CN16111411 disclose malononitrile oxime ether compounds, which have good control effect on plant pathogenic fungi and bacteria. The malononitrile oxime ether compound has good control effect on various plant diseases caused by plant pathogenic fungi such as oomycetes, basidiomycetes, ascomycetes, deuteromycetes and the like, including cucumber downy mildew, cucumber gray mold, cucumber anthracnose, cucumber powdery mildew, tomato early blight, tomato late blight, pepper phytophthora blight, grape downy mildew, grape white rot, apple ring rot, apple alternaria leaf spot, rice sheath blight, rice blast, wheat rust, wheat leaf spot, wheat powdery mildew, rape sclerotinia rot, corn small spot and the like; meanwhile, the composition has good control effects on various plant diseases caused by plant pathogenic bacteria such as pseudomonas, erwinia, xanthomonas, acidophilus and the like, including tomato bacterial wilt, tobacco bacterial wilt, citrus canker, kiwi canker, Chinese cabbage soft rot, cucumber bacterial angular leaf spot and the like.

The thiazole zinc is a thiadiazole metal complex, and Chinese patent ZL00132119.6 and CN201710368067.4 disclose that the thiazole zinc is used as a bactericide and can be used for preventing and treating diseases such as rice bacterial leaf blight, bacterial streak, citrus canker, wheat powdery mildew and the like.

Practical agricultural experience and extensive scientific research data have shown that the long-term repeated and specific application of one type of compound for controlling plant fungi and bacterial diseases leads in many cases to a rapid selectivity of pathogenic bacteria and fungal strains, some strains developing an adapted resistance to a particular active compound, resulting in a significant reduction, or even a complete loss, of the control effect of the active compound.

Disclosure of Invention

The present invention aims to provide a fungicidal and bacterial composition and the use thereof in order to reduce the risk of resistance of pathogenic fungi and bacteria to active compounds and to improve the control of pathogenic fungi and bacteria.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a fungicidal and bactericidal composition comprises a component A and a component B; the weight ratio of the A, B components is 1: 100-100: 1; wherein, the component A is malononitrile oxime ether compound shown in a general formula I; the component B is zinc thiazole;

the malononitrile oxime ether compound shown in the general formula I:

in the formula:

l is selected from- (CR)¹R²)_n-；

n is selected from 1 or 2;

when n ═ 2, W is phenyl; when n is 1, W is selected from W¹、W²、W³、W⁴、W¹²、W¹⁶、W²¹、W²³、W⁴⁷、W⁴⁸、W⁴⁹、W⁵⁹、W⁶⁷、W⁶⁸、W⁶⁹、W⁷⁰、W⁷¹、W⁷²、W⁷³、W⁷⁴、W⁷⁹、W⁸⁰、W⁸¹、W⁸²、W⁸³Or W⁸⁴；

Wherein:

X¹、X²、X³、X⁴、X⁵、X⁶、X⁷、X⁸、X⁹each independently selected from hydrogen, halogen, cyano, nitro, C₁-C₃Alkyl radical, C₁-C₃Haloalkyl, -OR³、-N(R⁴)S(＝O)₂R⁵、-S(＝O)₂NR³R⁵、-CH₂ON＝C(CN)₂Phenyl and pyridyl unsubstituted or optionally substituted by halogen, cyano, C₁-C₃A haloalkyl group; when W is W¹When, X¹、X²、X³、X⁴、X⁵Not hydrogen at the same time; or W¹Is composed of

Z is selected from hydrogen and C₁-C₃Alkyl, phenylmethyl;

k is selected from oxygen;

R³selected from hydrogen, C₁-C₃Alkyl radical, C₁-C₃Haloalkyl, unsubstituted or substitutedPhenyl or pyridyl optionally substituted by halogen or C₁-C₃A haloalkyl group;

R⁴、R⁵each independently selected from hydrogen and C₁-C₃An alkyl group;

q is selected from Q^1-2One of the groups shown, phenyl and pyridyl which are unsubstituted or optionally substituted by the following groups, wherein the following groups are halogen and C₁-C₃An alkyl group;

t is selected from phenyl and pyridyl which are unsubstituted or optionally substituted by halogen, cyano, C₁-C₃Alkyl, halo C₁-C₃Alkyl, halo C₁-C₃An alkoxy group.

Preferably, the component A in the composition is malononitrile oxime ether compounds shown in the general formula I:

wherein L is selected from: - (CR)¹R²)_n-；

n is selected from 1;

R¹、R²selected from hydrogen;

w is selected from W¹、W²、W³、W⁴、W¹²、W¹⁶、W²¹、W²³、W⁴⁸、W⁴⁹、W⁵⁹、W⁶⁷、W⁶⁸、W⁶⁹、W⁷⁰、W⁷¹、W⁷²、W⁷³、W⁷⁴、W⁷⁹、W⁸⁰、W⁸¹、W⁸²、W⁸³Or W⁸⁴；

X¹、X²、X³、X⁴、X⁵、X⁶、X⁷、X⁸、X⁹Each independently selected from hydrogen, halogen, cyano, nitro, C₁-C₃Alkyl radical, C₁-C₃A halogenated alkyl group,-OR³Phenyl and pyridyl unsubstituted or optionally substituted by halogen, cyano, C₁-C₃A haloalkyl group; when W is W¹When, X¹、X²、X³、X⁴、X⁵Not hydrogen at the same time;

z is selected from hydrogen and C₁-C₃An alkyl group;

k is selected from oxygen;

R³is selected from C₁-C₃Alkyl radical, C₁-C₃Haloalkyl, phenyl or pyridyl unsubstituted or optionally substituted by halogen or C₁-C₃A haloalkyl group;

q is selected from Q^1-2One of the groups shown, phenyl and pyridyl which are unsubstituted or optionally substituted by the following groups, wherein the following groups are halogen and C₁-C₃An alkyl group;

t is selected from phenyl and pyridyl which are unsubstituted or optionally substituted by halogen, cyano, C₁-C₃Alkyl, halo C₁-C₃Alkyl, halo C₁-C₃An alkoxy group;

the component B is selected from zinc thiazole;

wherein the weight ratio of the A, B components is 1: 90-90: 1.

further preferably, the weight ratio of the A, B components is 1: 75-75: 1; wherein, the component A is malononitrile oxime ether compound shown in the general formula I:

in the formula (I), the compound is shown in the specification,

l is selected from- (CR)¹R²)_n-；

n is selected from 1;

R¹、R²selected from hydrogen;

w is selected from W¹、W²、W³、W⁴、W¹⁶、W⁴⁹、W⁵⁹、W⁶⁹、W⁷⁰、W⁷¹、W⁷²、W⁷⁹、W⁸⁰Or W⁸¹；

X¹、X²、X³、X⁴、X⁵、X⁶Each independently selected from hydrogen, halogen, cyano, nitro, C₁-C₃Alkyl radical, C₁-C₃Haloalkyl, -OR³Phenyl which is unsubstituted or optionally substituted by halogen, cyano, C₁-C₃A haloalkyl group; when W is W¹When, X¹、X²、X³、X⁴、X⁵Not hydrogen at the same time;

z is selected from hydrogen;

k is selected from oxygen;

R³is selected from C₁-C₃Alkyl radical, C₁-C₃A haloalkyl group;

q is selected from Q^1-2One of the groups shown, phenyl and pyridyl which are unsubstituted or optionally substituted by the following groups, wherein the following groups are halogen and C₁-C₃An alkyl group;

t is selected from phenyl and pyridyl which are unsubstituted or optionally substituted by halogen and C₁-C₃Alkyl, halo C₁-C₃Alkyl, halo C₁-C₃An alkoxy group;

the component B is selected from zinc thiazole.

In a further preferred aspect, the A, B weight ratio between the two components is 1: 50-50: 1; wherein, the component A is malononitrile oxime ether compound shown in the general formula I:

in the formula (I), the compound is shown in the specification,

l is selected from- (CR)¹R²)_n-；

n is selected from 1;

R¹、R²selected from hydrogen;

w is selected from W¹、W²、W³、W⁴、W¹⁶、W⁴⁹Or W⁶⁹；

X¹、X²、X³、X⁴、X⁵Each independently of the otherIs selected from hydrogen, fluorine, chlorine, bromine, cyano, nitro, methyl, ethyl, isopropyl, chloromethyl, bromomethyl, difluoromethyl, trifluoromethyl, -OR³Phenyl which is unsubstituted or optionally substituted by halogen or cyano; when W is W¹When, X¹、X²、X³、X⁴、X⁵Not hydrogen at the same time;

R³selected from methyl or trifluoromethyl;

the component B is selected from zinc thiazole.

More preferably, the weight ratio between the A, B two components is 1: 20-20: 1; wherein, the component A is malononitrile oxime ether compound shown in the general formula I:

in the formula (I), the compound is shown in the specification,

l is selected from- (CR)¹R²)_n-；

n is selected from 1;

R¹、R²selected from hydrogen;

w is selected from W¹；

X¹、X²、X³、X⁴、X⁵Each independently selected from hydrogen, fluorine, chlorine, bromine, cyano, nitro, methyl, ethyl, isopropyl, chloromethyl, bromomethyl, difluoromethyl, trifluoromethyl, -OR³Phenyl which is unsubstituted or optionally substituted by halogen or cyano; when W is W¹When, X¹、X²、X³、X⁴、X⁵Not hydrogen at the same time;

R³selected from methyl or trifluoromethyl;

the component B is selected from zinc thiazole.

The use of said fungicidal, bacterial compositions as a control against phytopathogenic harmful fungi, bacteria.

The compositions are useful for controlling harmful fungi, bacterial infections, infestations of plants, seeds, soils, areas, materials or spaces.

The composition is used for preventing and treating plant fungi and bacterial diseases of grains, rice, fruit trees, vegetables, flowers, traditional Chinese medicinal materials or lawns.

The fungicidal and bacterial composition is used for preventing and treating plant fungi and bacterial diseases by adopting a mode of spraying, irrigating roots or soaking seeds on leaf surfaces or the whole plants.

The preferred technical solution of the fungicidal, bacterial composition according to the invention is that component a is selected from the compounds listed in the following table:

the composition of the invention is suitable for controlling various harmful fungi and bacteria, especially various diseases of cereals, vegetables, fruit trees, ornamental plants, lawns and tropical crops, and various storage diseases.

When preparing the composition, the compound of component a and at least one compound of component B may be added thereto with other active substances effective against harmful pathogenic microorganisms or other pests, or active compounds or fertilizers having herbicidal action as well as growth regulating action.

The combination, whether used in any form, i.e., the combined use of the a-component compound and at least one B-component compound, exhibits a significant increase in the spectrum of disease control and enhanced control of certain diseases, including a variety of plant diseases caused by a variety of pathogenic microorganisms, such as pathogenic fungi and bacteria. The composition is especially important for preventing and controlling fungal and bacterial diseases of various crops such as grains, rice, vegetables, fruit trees and flowers, and is used for dressing seeds and protecting the crops. Is particularly suitable for preventing and treating the following plant fungal and bacterial diseases: rice blast, rice sheath blight, rice bacterial leaf streak, cucumber fusarium wilt, cucumber downy mildew, cucumber powdery mildew, cucumber gray mold, cucumber bacterial angular leaf spot, tomato leaf mold, tomato bacterial wilt, apple ring rot, apple alternaria leaf spot, pepper blight, watermelon fusarium wilt, wheat scab, wheat take-all, soybean root rot, citrus canker, kiwi canker, tobacco bacterial wilt, Chinese cabbage soft rot, melon bacterial fruit blotch and the like.

In controlling plant diseases, the composition of the present invention may be applied before or after sowing of the plant, or by spraying or dusting the seed, plant or soil before or after emergence of the plant.

The invention has the advantages that:

the fungicidal and bacterial composition has very obvious synergistic effect, obviously improves the control effect on crop diseases, and can expand the bactericidal spectrum and delay the occurrence of drug resistance of pathogenic substances;

the invention combines the compounds with different action mechanisms and chemical structure types, can more effectively control harmful microorganisms influencing the growth of crops, and has synergistic effect so as to achieve the aims of effectively treating resistance and effectively controlling plant diseases.

Detailed Description

The synergistic effect of the fungicidal, bacterial compositions according to the invention on harmful fungi and bacterial diseases can be illustrated by the following examples, to which the invention is in no way restricted.

The active compounds, alone or in combination, are prepared as acetone or DMSO stock solutions containing 0.25% by weight of active compound. 1% by weight of emulsifier

EL (a wetting agent based on ethoxylated alkylphenol with emulsifying and dispersing action) is added to the stock solution and the active compound or mixture is diluted with water to the concentration required in the examples below.

The expected potency of the active compound mixtures was determined using the Colby formula [ S.R.Colby.calcium synergy and antibiotic Responses of pharmaceutical compositions.Weeds, 1967,15(1):20-22] and compared with the observed potency.

Colby formula: e ═ x + y-xy/100

E: the expected efficacy when using mixtures of active compounds a and B at concentrations a and B, respectively, is expressed as% of the untreated control.

x efficacy when using active compound a at a concentration a, expressed as% of untreated control;

y efficacy when using active compound B at a concentration of B, expressed as% of the untreated control.

If the actual observed efficacy (O) is greater than the expected efficacy (E), the effect of the combination is a synergistic effect, which corresponds mathematically to a positive difference in (O-E). If the actual observed efficacy (O) is equal to the expected efficacy (E), the effect of the combination is a purely additive effect, showing no synergy, mathematically the difference corresponding to (O-E) is zero. If the actual observed potency (O) is less than the expected potency (E), then the effect of the combination is an antagonistic effect, mathematically the difference corresponding to (O-E) is negative.

Application example 1 test for controlling bacterial fruit blotch of melon

Potted melon seedlings of the cultivar "tiger-skin crisp" were cultivated to the two-leaf stage and sprayed to the drip point with an aqueous suspension of the active compound at the concentrations stated below. After 24 hours, melon leaves are inoculated with an aqueous suspension of melon bacterial fruit blotch (Acidovorax citrulli), and then melon seedlings are placed in a climate chamber at 24-28 ℃ and a relative humidity of 95-99% for culture for 7 days. And finally, visually measuring the development degree of the germ infection on the muskmelon leaves.

The data and results of the individual active ingredients and the inventive compositions for controlling bacterial fruit blotch in melons are shown in tables 1 and 2. The results show that the observed efficacy values of the composition are all larger than the calculated efficacy values, which indicates that the composition shows a synergistic effect in the range of the experimental mixture ratio.

TABLE 1 Activity of the Individual active ingredients

TABLE 2 Activity of the compositions of the invention

Application example 2 test for preventing and treating soft rot of Chinese cabbage

Potted chinese cabbage seedlings of cultivar "dehogho No. 1" were cultivated to the trefoil stage and sprayed to the drip point with an aqueous suspension of the active compound at the concentrations described below. After 24 hours, the leaves of the Chinese cabbage are inoculated with an aqueous suspension of Chinese cabbage soft rot fungi (Erwinia carotovora subsp. carotovora), and then the seedlings are cultured in a climate chamber at 22-26 ℃ and a relative humidity of 95-99% for 3 days. And finally, visually measuring the development degree of pathogen infection on the Chinese cabbage leaves.

The data and results of the single active components and the composition for preventing and treating the soft rot of the Chinese cabbage are shown in tables 3 and 4. The results show that the observed efficacy values of the composition are all larger than the calculated efficacy values, which indicates that the composition shows a synergistic effect in the range of the experimental mixture ratio.

TABLE 3 Activity of the Individual active Components

TABLE 4 Activity of the compositions of the invention

Application example 3 test for controlling wheat powdery mildew

Potted wheat seedlings of cultivar "Liaochun No. 10" were cultivated to the trefoil stage and sprayed to the drip point with an aqueous suspension of the active compound at the concentration indicated below. After 24 hours, wheat leaves are inoculated with an aqueous spore suspension of Blumeria graminis (Blumeria graminis), and then the wheat seedlings are cultured for 7 days in a climate chamber at 22-24 ℃ and a relative humidity of 85-90%. And finally, visually measuring the development degree of pathogen infection on the wheat leaves.

The data and results of the individual active ingredients and the inventive compositions for controlling wheat powdery mildew are shown in tables 5 and 6. The results show that the observed efficacy values of the composition are all larger than the calculated efficacy values, which indicates that the composition shows a synergistic effect in the range of the experimental mixture ratio.

TABLE 5 Activity of the Individual active Components

TABLE 6 Activity of the compositions of the invention

Application example 4 field plot experiment for controlling bacterial leaf streak of rice

A field block which generates rice bacterial leaf streak (Xanthomonas oryzae pv. oryzicola) all the year round is selected to carry out field plot experiments, and the rice cultivar is Wanxiangyou No. 1. The test adopts a random block design, the area of a cell is 25 square meters, the cell is repeated for four times, and the medicament treatment is carried out for two times in total at one week interval. The first treatment with the agent was started when bacterial leaf streak lesions were first observed in the field, and the rice plants were sprayed with an aqueous suspension of the active compound at the concentrations described below using a knapsack sprayer, one week later with a second spraying treatment. One week after the last spraying treatment, the degree of development of pathogen infestation on the rice leaves was determined visually and the average of four replicates of each treatment was calculated (see tables 7 and 8).

TABLE 7 Activity of the Individual active Components

TABLE 8 Activity of the compositions of the invention

The data results of the individual active components and the composition for preventing and treating the bacterial leaf streak of the rice show that the observation efficacy values of the composition are all larger than the calculation efficacy values, which indicates that the composition shows a synergistic effect in the range of the experimental mixture ratio.

Claims (5)

1. A fungicidal, bacterial composition, characterized in that: the composition comprises a component A and a component B; the weight ratio of the A, B components is 1: 20-20: 1; wherein, the component A is malononitrile oxime ether compound shown in a general formula I; the component B is zinc thiazole;

in the formula:

l is selected from- (CR)¹R²)_n-，R¹、R²Selected from hydrogen;

n is selected from 1 or 2;

when n ═ 2, W is phenyl; when n is 1, W is selected from

2. Use of the fungicidal, bacterial composition according to claim 1, characterized in that: the composition is used for controlling plant pathogenic harmful fungi and bacteria.

3. The use of a fungicidal, bacterial composition according to claim 2, characterized in that: the compositions are useful for controlling harmful fungi, bacterial infections, infestations of plants, seeds, soils, areas, materials or spaces.

4. The use of a fungicidal, bacterial composition according to claim 3, characterized in that: the composition is used for preventing and treating plant fungi and bacterial diseases of grains, rice, fruit trees, vegetables, flowers, traditional Chinese medicinal materials or lawns.

5. The use of a fungicidal, bacterial composition according to any of claims 2 to 4, characterized in that: the fungicidal and bacterial composition is used for preventing and treating plant fungi and bacterial diseases by adopting a mode of spraying, irrigating roots or soaking seeds on leaf surfaces or the whole plants.