CN107494568A

CN107494568A - Prevent and treat compound synergistic bactericidal composition and its application of tomato and pear tree Major Diseases

Info

Publication number: CN107494568A
Application number: CN201710692451.XA
Authority: CN
Inventors: 赵建江; 韩秀英; 王文桥; 毕秋艳; 吴杰; 路粉; 赵卫松
Original assignee: Institute of Plant Protection Hebei Academy of Agricultural and Forestry Sciences
Current assignee: Institute of Plant Protection Hebei Academy of Agricultural and Forestry Sciences
Priority date: 2017-08-14
Filing date: 2017-08-14
Publication date: 2017-12-22
Anticipated expiration: 2037-08-14
Also published as: CN111296460B; CN111296460A; CN107494568B

Abstract

The present invention relates to a kind of compound synergistic bactericidal composition and its application for preventing and treating tomato and pear tree Major Diseases, the composition pesticide active component includes fluorine azoles bacterium acyl azanol and active component B；Wherein active component B includes one kind in methoxy acrylic bactericide, ergosterol synthetic inhibitor, substituted aniline series bactericidal agent, bacillus subtilis (Bacillus subtilis) BAB 1.Composition pesticide of the present invention is applied to the preventing and treating of the Major Diseases such as gray mold, early blight, leaf mold, gray leaf spot, scab, ring spot and the black spot of tomato and pear tree; its quick-acting and lasting effect are good; mechanism of action is novel and site is more; the drug-fast occurrence and development of pathogen can effectively be delayed, to disease not only with protective effect but also with good therapeutic action.The compound synergic composite reagent amount is few, effectively reduces pollution of the medicament to fruit and environment.

Description

Prevent and treat compound synergistic bactericidal composition and its application of tomato and pear tree Major Diseases

Technical field

The invention belongs to technical field of pesticide, more particularly to a kind of compound synergistic bactericidal combination for preventing and treating fruits and vegetables Major Diseases Thing and application.

Background technology

Fluorine azoles bacterium acyl azanol (adepidyntm) belongs to succinate dehydrogenase inhibitors series bactericidal agent, and its mode of action is logical Cross and the Complex II (succinate dehydrogenase) of mitochondrial respiratory chain is worked, the energetic supersession of cell is influenceed, so as to suppress target The spore germination of fungi, germ tube and mycelial growth are marked, shows good protection and therapeutic action.The bactericide has efficiently low The features such as malicious, have to a variety of pathogens such as Botrytis, Septoria, Cercospora leaf spot, Alternaria and Venturia Good activity.

Methoxy acrylic bactericide mechanism of action is novel, mainly acts on mitochondrial respiratory chain cpd III, with Qo sites on fungal cytochrome b combine, and prevent electron transmission between cytochrome b and C1 and suppress mitochondrial respiratory effect, Mitochondria is seted to ultimately result in cell death from producing and providing the energy (ATP) needed for cell eubolism, suppress pathogen Spore germination, the formation of mycelial growth and spore, there is protection and therapeutic action

Ergosterol synthetic inhibitor series bactericidal agent SYP-Z048, Imazalil sulfate and natamycin, mechanism of action are only Spy, structure is novel, has the characteristics of efficient, wide spectrum and security are good, has remarkable preventive effect to gray mold.Substituted benzene amine is sterilized Agent fluazinam is a kind of protective fungicide of broad-spectrum high efficacy, to Botrytis cinerea, interlink spore genus, Phytophthora, Plasmopara, nuclear disk The germ disease such as Pseudomonas and Venturia also has good activity.

Biocontrol microorganisms bacillus subtilis (Bacillus subtilis) BAB-1 is protected by Hebei Prov. Academy of Agricultural ＆. Forest Sciences plant Shield research institute screening obtain, there is good preventive effect to various plants fungal disease, on July 6th, 2007, be preserved in China it is micro- Biological inoculum preservation administration committee common micro-organisms center, deposit number are CGMCC No.2099.Classification system is： Bacillus subtilis BAB-1 (hereinafter referred to as BAB-1).BAB-1 is for bacillus subtilis (Bacillus subtilis) Disclosed in Chinese patent CN101148650A, the bacterial strain have efficiently, antimicrobial spectrum it is wide, using it is simple, cost is low, dirty without environment The features such as dye, the preventing and treating available for graw mold of tomato and leaf mold.

So far there is not yet utilizing fluorine azoles bacterium acyl azanol and methoxy acrylic bactericide, ergosterol synthetic inhibitor SYP-Z048, Imazalil sulfate and natamycin and biocontrol agent bacillus subtilis BAB-1 develop mixture preventing and treating tomato (leaf Mildew, early blight, gray leaf spot and gray mold) and pear tree (scab, ring spot and black spot) Major Diseases report.

The content of the invention

Fluorine azoles bacterium acyl azanol has higher resistance risk, and long-term use may bring resistance to produce, and drug effect decline etc. is asked Topic, to delay the generation of the drug resistance, preventive effect is improved, reduce dosage, composition pesticide proposed by the present invention is containing active Composition A (fluorine azoles bacterium acyl azanol) and active component B (methoxy acrylic bactericide, ergosterol synthetic inhibitor, substitution Aniline fungicides fluazinam and bacillus subtilis BAB-1) and appropriate auxiliary agent.Composition pesticide of the present invention can be used for preventing Control tomato and pear tree Major Diseases.

First purpose of the present invention is to provide a kind of compound synergistic bactericidal combination for preventing and treating tomato and pear tree Major Diseases Thing, its active component include fluorine azoles bacterium acyl azanol and active component B；Wherein active component B kills including methoxy acrylic Microbial inoculum, ergosterol synthetic inhibitor, substituted aniline series bactericidal agent, bacillus subtilis (Bacillus subtilis) BAB-1 In one kind.

Further, the methoxy acrylic bactericide includes Fluoxastrobin, pyraclostrobin, Enestroburin, azoles Any of amine bacterium ester, kresoxim-methyl, ZEN 90160, SYP-3375, chlorine pyridine bacterium fat, trifloxystrobin, alkene oxime amine etc. are several.

Further, the ergosterol synthetic inhibitor includes SYP-Z048, Imazalil sulfate and natamycin etc. Any of or it is several.

Further, substituted aniline series bactericidal agent is including fluazinam etc..Further, the bacillus subtilis BAB-1 For its zymotic fluid or its lyophilized bacterium powder or its metabolite；It is preferred that the total viable count of the zymotic fluid is 7 × 10⁹~1 × 10¹⁰CFU/mL；It is preferred that the total viable count of the lyophilized bacterium powder is 1.8 × 10¹⁰~2.4 × 10¹⁰CFU/g。

The two kinds of active components of the compound synergic composition pesticide of fluorine-containing azoles bacterium acyl azanol of the present invention when in use, its Proportioning is not particularly limited, and the two is respectively provided with obvious synergistic effect with arbitrary proportion compounding use.

In order to preferably play drug effect, in above-mentioned compound synergistic bactericidal composition, preferably fluorine azoles bacterium acyl azanol and the work Property composition B weight ratio is (1-10):(1-10), more preferably (1-4):(1-4), much further preferably from (1-2): (1-2).I.e. when two active components are with said ratio compounding use, there is more preferably synergistic effect.

In order to give full play to the drug effect of above-mentioned compound synergistic bactericidal composition, this can be made in any one above-mentioned composition Various formulations known to field, such as wettable powder, suspending agent, oil suspending agent.In various formulations, the preferred weight of active component Amount percentage is 1%-80%, further preferred 30%-60%, most preferably 45%.

When above-mentioned composition pesticide is made into specific formulation, used auxiliary agent is auxiliary agent commonly used in the art, be may be selected from One or more combinations in wetting agent, dispersant, suspension aids, binding agent (thickener), anti-bubble auxiliary agent, disintegrant.

Specifically, the present invention provides a kind of Wettable pesticide powder, and the Wettable pesticide powder is by including such as the following group Divide what is be prepared：Fluorine azoles bacterium acyl azanol, active component B, wetting agent, dispersant, filler.

The Wettable pesticide powder is preferably prepared by the component including following parts by weight：10-30 part fluorine azoles bacterium acyls Azanol, 10-30 part active component B, 1-10 part wetting agents, 1-10 part dispersants, filler complement to 100 parts.

In the above-mentioned Wettable pesticide powder, the wetting agent is preferably AEO (JFC), dodecane One or more of combinations in base benzene sulfonic acid sodium salt, APES formaldehyde condensation product sulfonate (SOPA)；

The dispersant is preferably naphthalene sulfonic acid-formaldehyde condensation product sodium salt (NNO), lignosulfite, sodium lignin sulfonate Salt (M-9), 4- oleoyls-methoxy benzenesulfonic acid sodium salt (LS), sanlose (CMC), APES (OP-10), one or more combinations in ethylene glycol monobutyl ether, polyoxyethanyl alkyl ether, NPE；

The filler is preferably one or more in white carbon, kaolin, precipitated calcium carbonate, diatomite, bentonite Combination.

The wettable powder is more preferably prepared by the component including following parts by weight：21-24 part fluorine azoles bacterium acyl hydroxyls Amine, 21-24 part active component B, 5-8 part APES formaldehyde condensation product sulfonate, 3-5 part polyoxyethanyl alkyl Ether, diatomite complement to 100 parts.

It is further preferred that the wettable powder is prepared by the component including following parts by weight：22.96 part 98% Fluorine azoles bacterium acyl azanol, 23.32 part of 96.5% active component B (preferably azoles amine bacterium ester), 6 parts of pelopon As, 4 parts of wood Quality sulfonate sodium, 43.72 parts of precipitated calcium carbonates.

Invention also provides the preparation method of any one above-mentioned Wettable pesticide powder to be：By fluorine azoles bacterium acyl hydroxyl Amine, the active component B (such as kresoxim-methyl), wetting agent, dispersant, filler are well mixed, and are then crushed, and are crossed 325 mesh sieves, that is, are made Into 42%-48% fluorine azoles bacterium acyl azanol active component B (such as kresoxim-methyl) Wettable pesticide powder.

The present invention also provides a kind of suspension pesticide, and the suspension pesticide including following component by being prepared： 10-30 part fluorine azoles bacterium acyl azanols, 10-30 part active component B, 3-5 parts emulsifying agent, 2-3 parts wetting agent, 3-5 parts preservative, 0.5 ~3 parts of stabilizers, 0.5~2 part of defoamer, 1~3 part of antifreezing agent, water complement to 100 parts.

In the suspension pesticide, the emulsifying agent is preferably alkyl naphthalene sulfonic acid salt, alkylphenol-formaldehyde resin polyoxy second Alkene ether, Span60, one kind in triphenoethyl benzene phenol polyoxy in alkene oxygen ethylene block polymer or Tween-60 It is or two or more；

The wetting agent is preferably alkylphenol-polyethenoxy base ether phosphate, alkylphenol-polyethenoxy base ether formaldehyde condensation products Sulfate, alkyl sulfate, phenethyl phenol polyoxyethylene groups ether phosphate, sodium alkyl sulfonate or one kind in naphthalene sulfonate or two More than kind；

The preservative is preferably more than one or both of benzoic acid, formaldehyde or sodium benzoate；

The stabilizer is preferably more than one or both of epoxy chlorine alkane or triphenyl phosphate；

The defoamer is preferably organosilicon；

The antifreezing agent is preferably more than one or both of propane diols, ethylene glycol, glycerine, urea or inorganic salts.

The suspension pesticide is more preferably prepared by the component including following parts by weight：21-24 part fluorine azoles bacterium acyl hydroxyls Amine, 21-24 part active components B (preferably azoles amine bacterium ester or natamycin), 3-5 part alkyl naphthalene sulfonic acids salt, 2-4 part dodecyls Sodium sulfonate, 3-5 parts sodium benzoate, 2-3 part epoxy chlorine alkane, 0.5-1 parts organosilicon, 1-3 parts glycerine, water complement to 100 parts.

It is further preferred that the suspending agent is prepared by the component including following parts by weight：22.96 part 98% Fluorine azoles bacterium acyl azanol；22.50 parts of active component B (preferably natamycin)；4 parts of alkyl phenol formaldehyde resin polyoxyethylene ethers, 3 part ten Dialkyl sulfonates, 4 parts of sodium benzoates, 2 parts of epoxy chlorine alkane, 0.5 part of organosilicon, 1 part of propane diols and 40.04 parts of water.

Invention also provides the preparation method of any one above-mentioned suspension pesticide to be：By fluorine azoles bacterium acyl azanol, work Property composition B, emulsifying agent, wetting agent, stabilizer, defoamer, antifreezing agent, water and abrasive media mixed grinding, are homogeneously suspended Liquid, decoction is separated with abrasive media, that is, 42%-48% fluorine azoles bacterium acyl azanol active component B (such as azoles amine bacterium ester) are made Suspension pesticide.

Present invention simultaneously provides a kind of oil suspending agent agricultural chemicals, the oil suspending agent agricultural chemicals is by being prepared including following component 's：Fluorine azoles bacterium acyl azanol, the active component B, wetting dispersing agent, viscosity-controlling agent oil base etc. form.

The oil suspending agent agricultural chemicals is preferably prepared by the component including following parts by weight：5-10 part fluorine azoles bacterium acyl azanols, 5-10 part active component B, 10-20 part wetting dispersing agents, 1-2 part viscosity-controlling agents, oil base complement to 100 parts.

In the oil suspending agent agricultural chemicals, wetting dispersing agent is preferably：The methyl esters emulsifier YUS-EC2200 of this grease of bamboo, ore deposit Thing emulsifier YUS-135B, vegetable oil emulsifier YUS-110；Methyl esters emulsifier VO/02N, mineral oil emulsion agent MO/P；First Ester oil emulsifier 1577 or B1579, vegetable oil emulsifier 1573；Oily suspension aids SOD (there is outstanding emulsification to make methyl esters oil With)；Silicone oil and white oil emulsifying agent C13/3；One or both of methyl esters emulsifier OF-8712-70 or OF-7812-70 etc. More than.

The viscosity-controlling agent is：Organobentonite, aluminium-magnesium silicate, gas-phase silica etc.；

The oil base is：Methyl oleate, vegetable oil (soybean oil, rapeseed oil and corn oil etc.), mineral oil etc..

Preferably, the oil suspending agent agricultural chemicals is prepared by the component including following parts by weight：5.1 parts of fluorine azoles bacterium acyl hydroxyls Amine, 5.1 parts of active component B (preferably Imazalil sulfate), 10 parts of vegetable oil emulsifiers, 1 part of organobentonite, soybean oil are supplied To 100 parts.

Second object of the present invention is to provide the compound synergic pesticide combination of any one above-mentioned fluorine-containing azoles bacterium acyl azanol Thing or the application containing its preparation in tomato and the preventing and treating of pear tree Major Diseases.

The disease is included in gray mold, early blight, leaf mold, gray leaf spot, scab, ring spot and black spot etc. It is one or more.

The compound synergic composition pesticide of fluorine-containing azoles bacterium acyl azanol of the present invention or containing its preparation be applied to tomato and The preventing and treating of gray mold, early blight, leaf mold, gray leaf spot, scab, ring spot and the black spot of pear tree etc..

The compound synergic composition pesticide of fluorine-containing azoles bacterium acyl azanol of the present invention or the quick-acting containing its preparation and hold Effect property is good, and mechanism of action is novel and site is more, can effectively delay the drug-fast occurrence and development of pathogen, not only have to disease Protective effect and there is good therapeutic action.Further, by adding this area routine into the bactericidal composition Auxiliary agent is made into the conventional formulation in this area and novel form oil suspending agent is more conducive to active component and plays drug effect.The Bactericidal composite The preparation technology of thing is simple, and cost is low, and dosage is low, and diseases prevention spectrum is wide, and biological safety is high, remarkable in economical benefits.The compound sterilizing Agent preparation technology is simple, and cost is low, and diseases prevention spectrum is wide, and biological safety is high, remarkable in economical benefits, effectively reduces chemical pesticide Dosage, the compounded combination adapted to current double reduce-administration plans.

Embodiment

Following examples are used to illustrate the present invention, but are not limited to the scope of the present invention.It is unreceipted specific in embodiment Technology or condition person, carried out according to the technology or condition described by document in the art, or according to product description.It is used Reagent or the unreceipted production firm person of instrument are the conventional products that can be commercially available by regular distributor or pass through ability Domain conventional meanses are prepared.

The unit of weight being related in following examples can be gram, kilogram, ton, or its multiple.

Embodiment 1

A kind of composition pesticide, the formulation of the composition pesticide is wettable powder, and the wettable powder is by such as What lower component was prepared：22.96 part of 98% fluorine azoles bacterium acyl azanol, 23.32 part of 96.5% azoles amine bacterium ester, 6 parts of detergent alkylates Sulfonate sodium, 4 parts of lignin sulfonic acid sodium salts, 43.72 parts of precipitated calcium carbonates.

The wettable powder is more preferably prepared by the component including following parts by weight：22.96 part of 98% fluorine azoles bacterium Acyl azanol, 22.96 part of 98% kresoxim-methyl, 5 parts of APES formaldehyde condensation product sulfonate, 4 parts of polyoxyethanyl alkyl Ether, 45.08 parts of diatomite.

Embodiment 2-6

Composition pesticide, preparation method is with embodiment 1, the difference is that following components：

Embodiment 7-12

Embodiment 13

A kind of composition pesticide, the formulation of the composition pesticide is wettable powder, and the wettable powder is by such as What lower component was prepared：The fluorine azoles bacterium acyl azanol active compound of mass concentration 98%：20.41 parts；Bacillus subtilis BAB-1 is freezed (total viable count is 2.0 × 10 to bacterium powder¹⁰CFU/g)：40 parts；Dispersant sanlose：3 parts；Wetting agent：Dodecyl Sodium sulfonate：4.5 part；Filler precipitated calcium carbonate：32.09 parts.Being matched somebody with somebody with this, 20% fluorine azoles bacterium acyl hydroxyl can be made as stated above The CFU/ grams of bacillus subtilis BAB-1 wettable powder of amine 8,000,000,000.

Embodiment 14

A kind of composition pesticide, the formulation of the composition pesticide is suspending agent, and the suspending agent is by following component system For what is obtained：22.96 part of 98% fluorine azoles bacterium acyl azanol；23.32 part of 96.5% azoles amine bacterium ester；4 parts of alkylphenol-formaldehyde resin polyoxies Vinethene, 3 parts of dodecyl sodium sulfates, 4 parts of sodium benzoates, 2 parts of epoxy chlorine alkane, 0.5 part of organosilicon, 1 part of propane diols and 39.22 Part water.

Embodiment 15-25

Composition pesticide, it is formulated as shown in the table respectively：

Embodiment 26

A kind of composition pesticide, the formulation of the composition pesticide is oil suspending agent, and the oil suspending agent is by following component system For what is obtained：5.1 part of 98% fluorine azoles bacterium acyl azanol；5.1 part of 98% Imazalil sulfate；10 parts of mineral oil emulsion agent YUS- 135B, 1 part of organobentonite, soybean oil complement to 100 parts.

Embodiment 27-33

Composition pesticide, it is formulated as shown in the table respectively：

Embodiment 34

In order to further verify that the bactericidal composition of the present invention has good bactericidal effect, carried out below by way of test example Illustrate, length is limited, and the present invention, which only records, has convictive formula and experiment.

In tests below example, 200g/L fluorine azoles bacterium acyl azanol suspending agents (autogamy)；250g/L Fluoxastrobins suspending agent (commercially available) 20% azoles amine bacterium ester suspending agent (commercially available)；25% pyraclostrobin missible oil (commercially available), 50% trifloxystrobin water dispersible granule (commercially available)； 25% Enestroburin missible oil (commercially available)；22.5% ZEN 90160 missible oil (commercially available)；20% SYP-3375 suspending agent (commercially available)；5% Alkene oxime amine missible oil (commercially available)；25% SYP-Z048 missible oil (commercially available)；25% chlorine pyridine bacterium fat missible oil (self-control)；75% imazalil sulphur Hydrochlorate soluble granule (commercially available)；50% fluazinam missible oil (commercially available)；8×10⁹CFU/mL bacillus subtilis BAB-1 zymotic fluids (Inst. of Plant Protection, Hebei-Prov. Academy of Agricultural and Forestry Scie's offer).

The compounding test medicine being related in tests below example has the formula in above example to prepare.

Test example one：Fluorine azoles bacterium acyl azanol is from different fungicide compoundings to tomato and the co-toxicity of pear tree Major Diseases

It is sick to causing fruits and vegetables Major Diseases from different fungicide compoundings that fluorine azoles bacterium acyl azanol is studied using conventional methods The co-toxicity of opportunistic pathogen

For trying cause of disease bacteria strain：Tomato (botrytis cinerea, early vaccine, grey tikka and leaf mycete) and pear tree (black star germ, wheel line Bacterium and blackspot bacterium) provided by Inst. of Plant Protection, Hebei-Prov. Academy of Agricultural and Forestry Scie.Strains tested is carried out using PDA culture medium pre- Culture.Wherein described PDA culture medium is potato 200g, glucose 20g, agar 10g, distilled water 1000mL.

Reagent agent will be dissolved in acetone respectively, after the mother liquor that concentration is 10000 μ g/mL is made, by different quality ratio (10:1、8:1：6:1、4:1、2:1、1:1、1:2、1:4、1:6、1:8、1:10) mix, obtain the mixed liquor of different ratio.Then It is serially diluted with sterilized water, 1 is pressed with culture medium：9 ratio mixing, the drug containing PDA plate of series concentration is respectively prepared. Preculture bacterial strain edge, which is beaten, takes a diameter of 5mm bacteria cakes, and face down is connected to drug containing flat board center, incubated as at 24 DEG C, When control bacterium colony extends to 80% or so of culture dish, using the diameter of each processing of crossing method measurement and control.Profit EC is calculated with dps softwares₅₀And coefficient correlation.

The calculating of inhibiting rate：

Inhibiting rate (%)=[(control colony growth amount-processing colony growth amount germination rate)/control colony growth amount] × 100%

The mixed coefficient of synergism of medicament is calculated with reference to Wadley formula：

SR=EC₅₀(th)/EC₅₀(ob)

A, b represent two kinds of bactericide shared ratio in the mixture in above formula；EC₅₀And EC (A)₅₀(B) A and B is represented respectively Actual observation EC₅₀Value, EC₅₀(th) represent that two kinds of bactericide of A, B press a:The mixed theoretical EC of b₅₀Value, EC₅₀(ob) it is A, B Two kinds of bactericide press a:The mixed actual observation EC of b₅₀Value.SR>1.5, synergy；SR<0.5, antagonism；SR between 0.5 and 1.5 it Between represent summation action.

Experimental result is shown in Table 1-21.

Co-toxicity of the fluorine azoles bacterium acyl azanol of table 1 with azoxystrobin compound to botrytis cinerea

As known from Table 1, the mycelial growth of botrytis cinerea is shown after fluorine azoles bacterium acyl azanol is mixed with Fluoxastrobin Good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows significant synergistic effect, Wherein when the proportioning of fluorine azoles bacterium acyl azanol and Fluoxastrobin is 1:Synergistic effect is most obvious when 1, coefficient of synergism 6.28.

The fluorine azoles bacterium acyl azanol of table 2 compounds the co-toxicity to botrytis cinerea with pyraclostrobin

As known from Table 2, to the equal table of mycelial growth of botrytis cinerea after fluorine azoles bacterium acyl azanol is mixed with pyraclostrobin Reveal good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, its In when the proportioning of fluorine azoles bacterium acyl azanol and pyraclostrobin be 1:Synergistic effect is most obvious when 2, coefficient of synergism 7.69.

The fluorine azoles bacterium acyl azanol of table 3 compounds the co-toxicity to botrytis cinerea with Enestroburin

As known from Table 3, the mycelial growth of botrytis cinerea is showed after fluorine azoles bacterium acyl azanol is mixed with Enestroburin Go out good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein When the proportioning of fluorine azoles bacterium acyl azanol and Enestroburin is 1:Synergistic effect is most obvious when 1, coefficient of synergism 8.86.

The fluorine azoles bacterium acyl azanol of table 4 compounds the co-toxicity to botrytis cinerea with azoles amine bacterium ester

As known from Table 4, the mycelial growth of botrytis cinerea is showed after fluorine azoles bacterium acyl azanol is mixed with azoles amine bacterium ester Go out good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein When the proportioning of fluorine azoles bacterium acyl azanol and azoles amine bacterium ester is 1:Synergistic effect is most obvious when 1, coefficient of synergism 6.65.

The fluorine azoles bacterium acyl azanol of table 5 compounds the co-toxicity to botrytis cinerea with Imazalil sulfate

As known from Table 5, it is equal to the mycelial growth of botrytis cinerea after fluorine azoles bacterium acyl azanol is mixed with Imazalil sulfate Good inhibitory action is shown, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, Wherein when the proportioning of fluorine azoles bacterium acyl azanol and azoles amine bacterium ester is 1:Synergistic effect is most obvious when 1, coefficient of synergism 1.99.

The fluorine azoles bacterium acyl azanol of table 6 compounds the co-toxicity to tomato early blight bacterium with kresoxim-methyl

As known from Table 6, the mycelial growth of tomato early blight bacterium is shown after fluorine azoles bacterium acyl azanol is mixed with kresoxim-methyl Good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein when The proportioning of fluorine azoles bacterium acyl azanol and kresoxim-methyl is 1:Synergistic effect is most obvious when 1, coefficient of synergism 4.36.

The fluorine azoles bacterium acyl azanol of table 7 compounds the co-toxicity to tomato early blight bacterium with fluazinam

As known from Table 7, the mycelial growth of tomato early blight bacterium is shown after fluorine azoles bacterium acyl azanol is mixed with fluazinam Good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein when The proportioning of fluorine azoles bacterium acyl azanol and fluazinam is 1:Synergistic effect is most obvious when 2, coefficient of synergism 2.65.

The fluorine azoles bacterium acyl azanol of table 8 compounds the co-toxicity to tomato early blight bacterium with SYP-Z048

As known from Table 8, the mycelial growth of tomato early blight bacterium is showed after fluorine azoles bacterium acyl azanol is mixed with SYP-Z048 Go out good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein When the proportioning of fluorine azoles bacterium acyl azanol and SYP-Z048 is 1:Synergistic effect is most obvious when 1, coefficient of synergism 4.35.

The fluorine azoles bacterium acyl azanol of table 9 compounds the co-toxicity to tomato bastard indigo plaque with natamycin

As known from Table 9, the mycelial growth of tomato bastard indigo plaque is showed after fluorine azoles bacterium acyl azanol is mixed with natamycin Go out good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein When the proportioning of fluorine azoles bacterium acyl azanol and natamycin is 1:Synergistic effect is most obvious when 1, coefficient of synergism 1.83.

The fluorine azoles bacterium acyl azanol of table 10 compounds the co-toxicity to tomato bastard indigo plaque with fluazinam

As known from Table 10, the mycelial growth of tomato bastard indigo plaque is shown after fluorine azoles bacterium acyl azanol is mixed with fluazinam Good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein when The proportioning of fluorine azoles bacterium acyl azanol and fluazinam is 1:Synergistic effect is most obvious when 1, coefficient of synergism 1.70.

The fluorine azoles bacterium acyl azanol of table 11 compounds the co-toxicity to Fulvia fulva with Enestroburin

As known from Table 11, the mycelial growth of Cladosporium fulvum is shown after fluorine azoles bacterium acyl azanol is mixed with Enestroburin Good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein when The proportioning of fluorine azoles bacterium acyl azanol and Enestroburin is 1:Synergistic effect is most obvious when 1, coefficient of synergism 1.85.

The fluorine azoles bacterium acyl azanol of table 12 compounds the co-toxicity to Fulvia fulva with SYP-3375

As known from Table 12, the mycelial growth of Cladosporium fulvum is shown after fluorine azoles bacterium acyl azanol is mixed with SYP-3375 Good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein when The proportioning of fluorine azoles bacterium acyl azanol and SYP-3375 is 1:Synergistic effect is most obvious when 1, coefficient of synergism 1.81.

The fluorine azoles bacterium acyl azanol of table 13 compounds the co-toxicity to pear cucumerinum with ZEN 90160

As known from Table 13, the mycelial growth of pear cucumerinum is shown after fluorine azoles bacterium acyl azanol is mixed with ZEN 90160 Good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein when The proportioning of fluorine azoles bacterium acyl azanol and ZEN 90160 is 1:Synergistic effect is most obvious when 4, coefficient of synergism 5.05.

The fluorine azoles bacterium acyl azanol of table 14 compounds the co-toxicity to pear cucumerinum with SYP-3375

As known from Table 14, the mycelial growth of pear cucumerinum is shown after fluorine azoles bacterium acyl azanol is mixed with SYP-3375 Good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein when The proportioning of fluorine azoles bacterium acyl azanol and SYP-3375 is 1:Synergistic effect is most obvious when 1, coefficient of synergism 5.25.

The fluorine azoles bacterium acyl azanol of table 15 compounds the co-toxicity to pear cucumerinum with chlorine pyridine bacterium fat

As known from Table 15, the mycelial growth of pear cucumerinum is shown after fluorine azoles bacterium acyl azanol is mixed with chlorine pyridine bacterium fat Good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein when The proportioning of fluorine azoles bacterium acyl azanol and chlorine pyridine bacterium fat is 1:Synergistic effect is most obvious when 1, coefficient of synergism 5.32.

The fluorine azoles bacterium acyl azanol of table 16 compounds the co-toxicity to black rot of pear bacterium with trifloxystrobin

As known from Table 16, the mycelial growth of black rot of pear bacterium is shown after fluorine azoles bacterium acyl azanol is mixed with trifloxystrobin good Good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein working as fluorine The proportioning of azoles bacterium acyl azanol and trifloxystrobin is 1:Synergistic effect is most obvious when 1, coefficient of synergism 9.42.

The fluorine azoles bacterium acyl azanol of table 17 compounds the co-toxicity to black rot of pear bacterium with SYP-Z048

As known from Table 17, the mycelial growth of black rot of pear bacterium is shown after fluorine azoles bacterium acyl azanol is mixed with SYP-Z048 Good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein when The proportioning of fluorine azoles bacterium acyl azanol and trifloxystrobin is 1:Synergistic effect is most obvious when 1, coefficient of synergism 2.54.

The fluorine azoles bacterium acyl azanol of table 18 compounds the co-toxicity to pears blackspot bacterium with pyraclostrobin

As known from Table 18, the mycelial growth of Pear black spot bacterium is showed after fluorine azoles bacterium acyl azanol is mixed with pyraclostrobin Go out good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein When the proportioning of fluorine azoles bacterium acyl azanol and pyraclostrobin is 1:Synergistic effect is most obvious when 1, coefficient of synergism 6.02.

The fluorine azoles bacterium acyl azanol of table 19 compounds the co-toxicity to pears blackspot bacterium with fluazinam

As known from Table 19, the mycelial growth of Pear black spot bacterium is shown after fluorine azoles bacterium acyl azanol is mixed with fluazinam good Good inhibitory action, it is each to match (1~10):The coefficient of synergism of (1~10) is all higher than 1.5, shows synergistic effect, wherein working as fluorine The proportioning of azoles bacterium acyl azanol and fluazinam is 1:Synergistic effect is most obvious when 1, coefficient of synergism 3.93.

The fluorine azoles bacterium acyl azanol of table 20 compounds the co-toxicity to pears blackspot bacterium with natamycin

As known from Table 20, the mycelial growth of Pear black spot bacterium is shown after fluorine azoles bacterium acyl azanol is mixed with natamycin Good inhibitory action, it is each to match (1~6):The coefficient of synergism of (1~6) is all higher than 1.5, shows synergistic effect, wherein working as fluorine The proportioning of azoles bacterium acyl azanol and natamycin is 1:Synergistic effect is most obvious when 1, coefficient of synergism 1.72.

The fluorine azoles bacterium acyl azanol of table 21 compounds the co-toxicity to botrytis cinerea with bacillus subtilis BAB-1

Note：Bacillus subtilis BAB-1 is its zymotic fluid in table 21, by Inst. of Plant Protection, Hebei-Prov. Academy of Agricultural and Forestry Scie There is provided, living bacteria count is 8 × 10⁹CFU/mL。

As known from Table 21, to the mycelia of botrytis cinerea after fluorine azoles bacterium acyl azanol is mixed with bacillus subtilis BAB-1 Growth shows good inhibitory action, each to match (1~4):The coefficient of synergism of (1~4) is all higher than 1.5, shows synergy Effect, wherein when fluorine azoles bacterium acyl azanol and bacillus subtilis BAB-1 proportionings are 2:Synergistic effect is most obvious when 1, coefficient of synergism For 1.80.

Test example two：The field efficacy of fluorine azoles bacterium acyl azanol and different bactericide and its complex preparation to graw mold of tomato

According to medicine inspecting institute of the Ministry of Agriculture《Pesticide field efficacy medicine test criterion》GB/T17980-2000 " bactericidal agent for preventing and treating vegetable ash Mildew test of pesticide effectiveness criterion " is tested.Experimental plot is located at Hebei province Baoding Xushui County Gao Lin villages and small towns White Tower paving village, in tomato Gray mold sporadicly starts to spray first time medicine, continuous use 3 times, medication interval 7 days, 7 days investigation field hairs after last medication State of an illness condition, calculate disease index and prevention effect.

The fluorine azoles bacterium acyl azanol of table 22 is with other bactericide and its complex preparation to graw mold of tomato field controling test

Experiment is as can be seen that 45% fluorine azoles bacterium acyl azanol Fluoxastrobin wettable powder, 20% fluorine azoles bacterium acyl azanol are phonetic Bacterium ester oil suspension, 45% fluorine azoles bacterium acyl azanol pyraclostrobin wettable powder, 45% fluorine azoles bacterium acyl azanol pyrazoles ether bacterium Ester wettable powder, 45% fluorine azoles bacterium acyl azanol azoles amine bacterium ester wettable powder, 45% fluorine azoles bacterium acyl azanol SYP-Z048 Wettable powder, 10% fluorine azoles bacterium acyl azanol SYP-Z048 oil suspending agent, 45% fluorine azoles bacterium acyl azanol Imazalil sulfate oil CFU/ grams of bacillus subtilis BAB-1 wettable powder of suspension and 20% fluorine azoles bacterium acyl azanol 8,000,000,000 under test dose to kind Solanum cinerea shows good prevention effect, compared with its single dose, in the case where dosage reduces, to the preventive effect of gray mold Still better than its single dose, and crop and other beneficial organisms are had no adverse effects under test dose.

Test example three：The field efficacy of fluorine azoles bacterium acyl azanol and different bactericide and its complex preparation to leaf muld of tomato

According to medicine inspecting institute of the Ministry of Agriculture《Pesticide field efficacy medicine test criterion》GB/T17980.111-2004 " bactericidal agent for preventing and treating kind Eggplant leaf mold field control effectiveness test criterion " is tested.Experimental plot is located at village of Pang Gezhuang of Hebei province Baoding Dingxing County, in tomato Start to spray first time medicine, continuous use 3 times, medication interval 7 days, 7 days investigation fields after last medication when leaf mold sporadicly occurs Incidence, calculate disease index and prevention effect.

The fluorine azoles bacterium acyl azanol of table 23 is with other bactericide and its complex preparation to leaf muld of tomato field controling test

Experiment as can be seen that fluorine azoles bacterium acyl azanol from it is different it is bactericide compounded after there is good preventing and treating to leaf muld of tomato Effect, its single dose is above to the preventive effect of leaf mold, and dosage significantly reduces compared with single dose, to making under test dose Thing and other beneficial organisms have no adverse effects.

Test example four：The field efficacy of fluorine azoles bacterium acyl azanol and different bactericide and its complex preparation to early blight of tomato

According to medicine inspecting institute of the Ministry of Agriculture《Pesticide field efficacy medicine test criterion》GB/T17980.31-2000 " bactericidal agent for preventing and treating kind Eggplant early blight and late blight field control effectiveness test criterion " is tested.

Experimental plot is located at Cangzhou, Hebei Province Suning County Shi Su towns, starts spray when early blight of tomato sporadicly occurs for the first time Medicine, continuous use 3 times, medication interval 7 days, 7 days investigation field incidences after last medication, calculate disease index and preventing and treating effect Fruit.

The fluorine azoles bacterium acyl azanol of table 24 is with other bactericide and its complex preparation to early blight of tomato field controling test

Medicament	Dosage (ga.i./hm2)	Preventive effect (%)
			45% fluorine azoles bacterium acyl azanol Fluoxastrobin suspending agent	150	91.5
45% fluorine azoles bacterium acyl azanol pyraclostrobin suspending agent	150	92.2
			45% fluorine azoles bacterium acyl azanol fluazinam suspending agent	180	90.7
10% fluorine azoles bacterium acyl azanol fluazinam oil suspending agent	150	92.3
			45% fluorine azoles bacterium acyl azanol chlorfenapyr suspending agent	120	93.4
45% fluorine azoles bacterium acyl azanol azoles amine bacterium ester suspending agent	150	88.6
			45% fluorine azoles bacterium acyl azanol SYP-Z048 suspending agent	150	89.8
200g/L fluorine azoles bacterium acyl azanol suspending agents	200	79.4
			250g/L Fluoxastrobin suspending agents	300	75.1
25% pyraclostrobin missible oil	250	72.5
			20% azoles amine bacterium ester suspending agent	250	73.2
25% SYP-Z048 missible oil	400	80.3
			50% fluazinam missible oil	260	70.2
22.5% ZEN 90160 missible oil	150	79.8

Experiment as can be seen that fluorine azoles bacterium acyl azanol from it is different it is bactericide compounded after there is good preventing and treating to early blight of tomato Effect, its single dose is above to the preventive effect of early blight, and dosage significantly reduces compared with single dose, to making under test dose Thing and other beneficial organisms have no adverse effects.

Test example five：The field efficacy of fluorine azoles bacterium acyl azanol and different bactericide and its complex preparation to Tomato gray leaf spot

Experimental plot is located at little Sai villages all over the city of Hebei province, starts to spray first time medicine when tomato ash tikka sporadicly occurs, continuously Medication 3 times, medication interval 10 days, 10 days investigation field incidences, calculate disease index and prevention effect after last medication.

The fluorine azoles bacterium acyl azanol of table 25 is with other bactericide and its complex preparation to tomato ash tikka field controling test

Medicament	Dosage (ga.i./hm2)	Preventive effect (%)
			45% fluorine azoles bacterium acyl azanol Fluoxastrobin suspending agent	120	90.1
45% fluorine azoles bacterium acyl azanol pyraclostrobin suspending agent	120	93.2
			45% fluorine azoles bacterium acyl azanol fluazinam suspending agent	120	92.0
45% fluorine azoles bacterium acyl azanol SYP-Z048 suspending agent	120	91.2
			10% fluorine azoles bacterium acyl azanol SYP-Z048 oil suspending agent	100	93.5
45% fluorine azoles bacterium acyl azanol natamycin oil suspending agent	150	92.3
			200g/L fluorine azoles bacterium acyl azanol suspending agents	200	81.2
250g/L Fluoxastrobin suspending agents	300	76.9
			25% pyraclostrobin missible oil	250	79.4
25% SYP-Z048 missible oil	400	82.2
			50% fluazinam missible oil	260	79.8
Natamycin	240	72.4

Experiment as can be seen that fluorine azoles bacterium acyl azanol with it is different it is bactericide compounded after to Tomato gray leaf spot have well prevent Effect is controlled, its single dose is above to the preventive effect of gray leaf spot, and dosage significantly reduces compared with single dose, under test dose Crop and other beneficial organisms are had no adverse effects.

Test example six：The field efficacy of fluorine azoles bacterium acyl azanol and different bactericide and its complex preparation to pear scab

According to medicine inspecting institute of the Ministry of Agriculture《Pesticide field efficacy medicine test criterion》GB/T17980.24-2000 " bactericidal agent for preventing and treating pears Scab field control effectiveness test criterion " is tested

Experimental plot is located at Hebei province Botou City great Hu villages village, starts to spray first time medicine when pear scab occurs, continuous to use Medicine 3 times, medication interval 30 days, 20 days investigation field incidences, calculate disease index and prevention effect after last medication.

The fluorine azoles bacterium acyl azanol of table 26 is with other bactericide and its complex preparation to pear scab field controling test

Experiment as can be seen that fluorine azoles bacterium acyl azanol with it is different it is bactericide compounded after there is good preventing and treating effect to pear scab Fruit, its single dose is above to the preventive effect of pear scab, and dosage significantly reduces compared with single dose, to making under test dose Thing and other beneficial organisms have no adverse effects.

Test example seven：The field efficacy of fluorine azoles bacterium acyl azanol and different bactericide and its complex preparation to pears wheel line

According to medicine inspecting institute of the Ministry of Agriculture《Pesticide field efficacy medicine test criterion》GB/T17980.118-2004 " bactericidal agent for preventing and treating apples Fruit ring spot field control effectiveness test criterion " is tested

Experimental plot is located at Bei little Chen villages of Xinji City of Hebei province, 10 days spray first time medicines, continuous use 4 after pear tree is thanked and spent Secondary, medication interval 30 days, 14 days investigation field incidences, calculate disease index and prevention effect after last medication.

The fluorine azoles bacterium acyl azanol of table 27 is with other bactericide and its complex preparation to black rot of pear field controling test

Experiment as can be seen that fluorine azoles bacterium acyl azanol with it is different it is bactericide compounded after there is good preventing and treating effect to black rot of pear Fruit, its single dose is above to the preventive effect of ring spot, and dosage significantly reduces compared with single dose, lasting period length, in experiment agent Crop and other beneficial organisms are had no adverse effects under amount.

Test example eight：The field efficacy of fluorine azoles bacterium acyl azanol and different bactericide and its complex preparation to Pear black spot

Experimental plot is located at Hebei province Zhao County Xie village, starts to use first time medicine, continuous use 3 when pears pears blackspot is sporadicly fallen ill Secondary, medication interval 20 days, 14 days investigation field incidences, calculate disease index and prevention effect after last medication.

The fluorine azoles bacterium acyl azanol of table 28 is with other bactericide and its complex preparation to Pear black spot field controling test

Experiment as can be seen that fluorine azoles bacterium acyl azanol with it is different it is bactericide compounded after there is good preventing and treating effect to Pear black spot Fruit, its single dose is above to the preventive effect of black spot, and dosage significantly reduces compared with single dose, lasting period length, in experiment agent Crop and other beneficial organisms are had no adverse effects under amount.

Although above the present invention is made to retouch in detail with general explanation, embodiment and experiment State, but on the basis of the present invention, it can be made some modifications or improvements, this is apparent to those skilled in the art 's.Therefore, these modifications or improvements without departing from theon the basis of the spirit of the present invention, are belonged to claimed Scope.

Claims

1. a kind of compound synergistic bactericidal composition for preventing and treating tomato and pear tree Major Diseases, its active component include fluorine azoles bacterium acyl hydroxyl Amine and active component B；Wherein active component B includes methoxy acrylic bactericide, ergosterol synthetic inhibitor, substitution One kind in aniline fungicides, bacillus subtilis (Bacillus subtilis) BAB-1；

Preferably, the methoxy acrylic bactericide include Fluoxastrobin, pyraclostrobin, Enestroburin, azoles amine bacterium ester, Any of kresoxim-methyl, ZEN 90160, SYP-3375, chlorine pyridine bacterium fat, trifloxystrobin, alkene oxime amine are several；And/or

The ergosterol synthetic inhibitor includes any of SYP-Z048, Imazalil sulfate, natamycin or several； And/or

The substituted aniline series bactericidal agent includes fluazinam；And/or the bacillus subtilis BAB-1 be its zymotic fluid or its Lyophilized bacterium powder or its metabolite；It is preferred that the total viable count of the zymotic fluid is 7 × 10⁹~1 × 10¹⁰CFU/mL；It is it is preferred that described The total viable count of lyophilized bacterium powder is 1.8 × 10¹⁰~2.4 × 10¹⁰CFU/g。

2. preventing and treating tomato according to claim 1 and the compound synergistic bactericidal composition of pear tree Major Diseases, its feature exist In the weight ratio of fluorine azoles bacterium acyl azanol and the active component B is (1-10):(1-10), it is preferably (1-4):(1-4), enters one Step is preferably (1-2):(1-2).

3. the pesticidal preparations of the compound synergistic bactericidal composition containing claim 1 or 2；Preferably, the pesticidal preparations is can WP, suspending agent or oil suspending agent；And/or

Preferably, the percentage by weight of active component is 1%-80%, preferably 30%-70% in the pesticidal preparations, more excellent Select 45%-60%.

4. pesticidal preparations according to claim 3, it is wettable powder, it is characterised in that the wettable powder is By what is be prepared including following component：10-30 part fluorine azoles bacterium acyl azanols, 10-30 part active component B, 1-10 part wetting agents, 1- 10 parts of dispersants, filler complement to 100 parts；

Preferably, the wetting agent be AEO, pelopon A, APES, One or more of combinations in formaldehyde condensate sulfonate；And/or

The dispersant is naphthalene sulfonic acid-formaldehyde condensation product sodium salt, lignosulfite, lignin sulfonic acid sodium salt, 4- oleoyls-first Epoxide benzene sulfonic acid sodium salt, sanlose, APES, ethylene glycol monobutyl ether, polyoxyethanyl alkyl One or more combinations in ether, NPE；And/or

The filler is one or more combinations in white carbon, kaolin, precipitated calcium carbonate, diatomite, bentonite.

5. pesticidal preparations according to claim 4, it is characterised in that the wettable powder is by including following parts by weight Component be prepared：21-24 part fluorine azoles bacterium acyl azanols, 21-24 part active component B, 5-8 part neopelexes Salt, 3-5 part lignin sulfonic acid sodium salts, precipitated calcium carbonate complement to 100 parts；

Preferably, the wettable powder is prepared by the component including following parts by weight：22.96 part of 98% fluorine azoles bacterium Acyl azanol, 23.32 part of 96.5% active component B, 6 parts of pelopon As, 4 parts of lignin sulfonic acid sodium salts, 43.72 parts Precipitated calcium carbonate.

6. pesticidal preparations according to claim 3, it is suspending agent, it is characterised in that the suspending agent is by including such as What lower component was prepared：10-30 part fluorine azoles bacterium acyl azanols, 10-30 active components B, 3-5 part emulsifying agent, 2-3 parts wetting agent, 3-5 parts preservative, 0.5~3 part of stabilizer, 0.5~2 part of defoamer, 1~3 part of antifreezing agent, water complement to 100 parts；

Preferably, the emulsifying agent is alkyl naphthalene sulfonic acid salt, alkyl phenol formaldehyde resin polyoxyethylene ether, anhydrous sorbitol tristearin In acid esters, triphenoethyl benzene phenol polyoxy more than one or both of alkene oxygen ethylene block polymer or Tween-60；And/or

The wetting agent be alkylphenol-polyethenoxy base ether phosphate, alkylphenol-polyethenoxy base ether formaldehyde condensation products sulfate, It is more than one or both of alkyl sulfate, phenethyl phenol polyoxyethylene groups ether phosphate, sodium alkyl sulfonate or naphthalene sulfonate； And/or

So-called preservative is more than one or both of benzoic acid, formaldehyde or sodium benzoate；And/or

The stabilizer is more than one or both of epoxy chlorine alkane or triphenyl phosphate；And/or

The defoamer is organosilicon；And/or

The antifreezing agent is more than one or both of propane diols, ethylene glycol, glycerine, urea or inorganic salts.

7. pesticidal preparations according to claim 6, it is characterised in that the suspending agent is the group by including following parts by weight Divide what is be prepared：21-24 part fluorine azoles bacterium acyl azanols, 21-24 part active component B, 3-5 part alkylphenol-formaldehyde resin polyoxyethylene Ether, 2-4 part dodecyl sodium sulfates, 3-5 parts sodium benzoate, 2-3 part epoxy chlorine alkane, 0.5-1 parts organosilicon, 1-3 parts propane diols, Water complements to 100 parts；

The suspending agent is prepared by the component including following parts by weight：22.96 part of 98% fluorine azoles bacterium acyl azanol； 22.50 part active component B；4 parts of alkyl phenol formaldehyde resin polyoxyethylene ethers, 3 parts of dodecyl sodium sulfates, 4 parts of sodium benzoates, 2 Part epoxy chlorine alkane, 0.5 part of organosilicon, 1 part of propane diols and 40.04 parts of water.

8. pesticidal preparations according to claim 3, it is oil suspending agent, it is characterised in that the oil suspending agent is by including such as What lower component was prepared：5-10 part fluorine azoles bacterium acyl azanols, 5-10 part active component B, 10-20 part wetting dispersing agents, 1-2 parts stick Conditioning agent is spent, oil base complements to 100 parts；

Preferably, the wetting dispersing agent is：The methyl esters emulsifier YUS-EC2200, mineral oil emulsion agent YUS- of this grease of bamboo 135B, vegetable oil emulsifier YUS-110；Methyl esters emulsifier VO/02N, mineral oil emulsion agent MO/P；Methyl esters emulsifier 1577 Or B1579, vegetable oil emulsifier 1573；Oily suspension aids SOD；Silicone oil and white oil emulsifying agent C13/3；Methyl esters emulsifier OF- It is more than one or both of 8712-70 or OF-7812-70；And/or

The viscosity-controlling agent is：It is more than one or both of organobentonite, aluminium-magnesium silicate, gas-phase silica；And/or

The oil base is：It is more than one or both of methyl oleate, vegetable oil, mineral oil.

9. pesticidal preparations according to claim 8, it is oil suspending agent, it is characterised in that the oil suspending agent agricultural chemicals by including The component of following parts by weight is prepared：5.1 parts of fluorine azoles bacterium acyl azanols, 5.1 parts of active component B, 10 parts of vegetable oil emulsifiers, 1 Part organobentonite, soybean oil complement to 100 parts.

10. the pesticidal preparations described in compound synergistic bactericidal composition or claim any one of 3-9 described in claim 1 or 2 Application in tomato and the preventing and treating of pear tree Major Diseases；

Preferably, the disease is included in gray mold, early blight, leaf mold, gray leaf spot, scab, ring spot, black spot It is one or more.