CN109730076A - A kind of bactericidal composition and its application containing difenoconazole and pyrimethanil - Google Patents

Abstract

The invention discloses a kind of bactericidal composition containing difenoconazole and pyrimethanil, effective component is difenoconazole probenazole and pyrimethanil, and the weight ratio of difenoconazole and pyrimethanil is 15:1~1:10, preferably 10:1~1:5, further preferred 5:1~1:3, still further preferably 3:1~1:2.Can also containing allow in Pesticide Science using with acceptable auxiliary material.Dosage form can be wettable powder, suspending agent, aqueous emulsion, water dispersible granules, microemulsion.The application of bactericidal composition of the invention in prevention and treatment fruit, vegetable storage phase disease, the disease are selected from gray mold, anthracnose, ring spot, penicilliosis.Bactericidal composition of the invention, effective component difenoconazole, the mechanism of action of pyrimethanil are entirely different, compounding has obvious synergistic function, can be improved to the pathogen of Botrytis cinerea, Target spot pathogen, anthrax bacteria bactericidal activity, delay the generation of fungicide resistance, keep the corrosion-resistanting fresh-keeping effect of fruit and vegetable food more significant, improves the economic value of fruit and vegetable food.

Description

A kind of bactericidal composition and its application containing difenoconazole and pyrimethanil

Technical field

The present invention relates to a kind of bactericidal composition containing difenoconazole and pyrimethanil, and its in prevention and treatment water fruits and vegetables storage Application in hiding phase disease, belongs to pesticide control technical field.

Background technique

Fresh agricultural products storage logistics is the continuity of agricultural production, keeps its excellent quality and freshness is people's pursuit One of important goal, postharvest decay is rotten must to be solved the problems, such as during fresh agricultural products storage, logistics transportation.According to system Meter, the loss late in developed country's veterinary antibiotics product transporting procedures less than 5%, and the annual loss late in China be up to 25%~ 30%.The pathogen of Botrytis cinerea (Botrytis cinerea), anthrax bacteria (Colletotrichum gloeosporiorides) are Cause the important pathogen that postharvest fruit and vegetable rots, grape, strawberry, peach, apple, pears, tomato, cucumber, eggplant, fragrant-flowered garlic can be endangered The various fruits such as dish, vegetables not only cause to seriously endanger and the important disease of storage period in fruits and vegetables growth period.

Prevented and treated in production the pathogen of Botrytis cinerea, the common chemical bactericide of anthrax bacteria have carbendazim, iprodione, pyrimethanil, Prochloraz etc., but the pathogen of Botrytis cinerea, anthrax bacteria have the characteristics that breeding is fast, hereditary variation is big, grade of fit is high, and continuous use is same One medicament is also easy to produce drug resistance, brings extreme difficulties to prevention and treatment, only controls fruits and vegetables by increasing dosing or times for spraying and produces Product rot, and are either unfavorable for improving anti-corrosion effect still to guarantee fruits and vegetables quality all.Meanwhile as people are to food The residual toxicity of the concern of product safety problem, fungicide is increasingly taken seriously, and it is few to find safer, wide spectrum, dosage Germ killing drugs combination, reduces the usage amount of chemical bactericide, delays the generation of drug resistance, be current postharvest fruit and vegetable anti-corrosive fresh-keeping Research hotspot and the technical problem to be solved in the present invention.

Difenoconazole is the interior suction wide-spectrum bactericide that safety is relatively high in triazole bactericidal agent, difenoconazole The mechanism of action is to be able to suppress the biosynthesis of the ergosterol of fungi, has protection and therapeutic effect, wide sterilization spectrum, lasting period Long feature is widely used in the crops such as fruit tree, vegetables, can effectively prevent the diseases such as scab, anthrachose of grape and white rot.

Pyrimethanil belongs to pyrimidine fungicides fungicide, is a kind of efficient, the less toxic fungicide for preventing and treating gray mold, has interior Inhale conduction and fumigation action, each position in plant can be passed to after application rapidly, by inhibit germ invasive enzyme secretion to It prevents germ from infecting, thoroughly kills germ.It with other fungicide no interactions resistances, and uses at low temperature, there still have to be very good Protection and therapeutic effect.For preventing and treating crop gray mold and black spot of fruit tree, spot defoliation etc..

Difenoconazole or pyrimethanil is used alone to be prevented and be controlled fruit, vegetable storage phase gray mold, anthrax Disease, ring spot, penicilliosis effect are undesirable.Currently, there is not yet by the relevant report of difenoconazole and Pyrimethanil compositional.

Summary of the invention

For the above-mentioned prior art, the present invention provides a kind of bactericidal composition containing difenoconazole and pyrimethanil, and Its application in prevention and treatment fruit, vegetable storage phase disease (especially gray mold, anthracnose, ring spot, penicilliosis).

The present invention is achieved by the following technical solutions:

A kind of bactericidal composition containing difenoconazole and pyrimethanil, effective component are difenoconazole probenazole and phonetic mould The weight ratio of amine, difenoconazole and pyrimethanil be 15:1~1:10, preferably 10:1~1:5, further preferred 5:1~1:3, then Further preferred 3:1~1:2.

Further, in the bactericidal composition containing difenoconazole and pyrimethanil, can contain allows in Pesticide Science Using with acceptable auxiliary material.

Further, the bactericidal composition containing difenoconazole and pyrimethanil is grouped as by the group of following parts by weight : difenoconazole 1%~60%, pyrimethanil 1%~60%, surplus are to allow in Pesticide Science using auxiliary with acceptable Material.

Allow to be selected from solvent, dispersing agent, diffusant, disintegrating agent, cream using with acceptable auxiliary material in the Pesticide Science Agent, adsorbent, stabilizer, wetting agent, defoaming agent, antifreeze etc. or other stabilizations for facilitating effective component drug effect and hair That waves allows using auxiliary agent.

The bactericidal composition containing difenoconazole and pyrimethanil can use processing method system well known in the prior art Standby any one dosage form used at suitable agricultural production, preferred dosage form are as follows: wettable powder, suspending agent, aqueous emulsion, water dispersion Granula, microemulsion.

Bactericidal composition containing difenoconazole and pyrimethanil of the invention, in prevention and treatment fruit, vegetable storage phase disease Application.The disease is selected from gray mold, anthracnose, ring spot, penicilliosis.

Further, when preventing and treating the pathogen of Botrytis cinerea, the weight ratio of both difenoconazole and pyrimethanil is with 10:1~1:5 It is preferred, more preferably, 2:1 is best by 5:1~1:1；When preventing and treating Botryosphaeria berengeriana f. sp, the weight ratio of both difenoconazole and pyrimethanil It is preferred with 5:1~1:5, more preferably, 3:1 is best by 3:1~1:3；When preventing and treating apple anthrax bacteria, difenoconazole and pyrimethanil two The weight ratio of person is preferred with 5:1~1:3, and more preferably, 3:1 is best by 3:1~1:2.

Bactericidal composition containing difenoconazole and pyrimethanil of the invention, can be provided in the form of finished product preparation, can also be with Unit dose form provides, and using preceding direct mixing, is then watered mixing and is made into required concentration, the dipping before water fruits and vegetables enter freezer Or it is spraying, it is put in storage after drying.

Bactericidal composition containing difenoconazole and pyrimethanil of the invention, effective component difenoconazole, pyrimethanil The mechanism of action is entirely different, and inventor (difenoconazole and pyrimethanil is used in combination, indoors screening and field by test On the basis of test, the anti-corrosion effect to storage period gray mold, anthracnose, ring spot, penicilliosis is measured, there is apparent synergy Effect) discovery, difenoconazole is compounded with pyrimethanil, has the advantage that (1) apparent synergistic function, it should Composition improve single dose to the pathogen of Botrytis cinerea, Target spot pathogen, anthrax bacteria bactericidal activity；(2) reduce chemical bactericide Usage amount and access times, reduce use cost, the quality safety of food can be improved；(3) medicament of different role mechanism It is used in combination, the generation of fungicide resistance can be delayed；(4) corrosion-resistanting fresh-keeping effect of fruit and vegetable food is more significant, greatly prolongs The shelf life of fruit and vegetable food, improves the economic value of fruit and vegetable food.

The various terms and phrase that the present invention uses are with well known to a person skilled in the art general senses.The term referred to With phrase if any meaning inconsistent with common art-recognized meanings, that the present invention of being subject to is stated.

Detailed description of the invention

The pharmacodynamic results of Fig. 1: 30% difenoconazole pyrimethanil microemulsion prevention and treatment storage period apple anthracnose.

Specific embodiment

Below with reference to embodiment, the present invention is further illustrated.However, the scope of the present invention is not limited to following realities Apply example.One of skill in the art, can be to the present invention it is understood that under the premise of without departing substantially from the spirit and scope of the present invention Carry out various change and modification.

The present invention carries out general and/or specific description to the material and test method arrived used in test.Though So many materials and operating method used in purpose are it is known in the art that still the present invention is still herein to realize the present invention It is described in detail as far as possible.

Instrument involved in following embodiments, reagent, material etc. are unless otherwise noted existing in the prior art Conventional instrument, reagent, material etc., can be obtained by regular commercial sources.Experimental method involved in following embodiments, inspection Survey method etc. is unless otherwise noted existing routine experiment method in the prior art, detection method etc..

It tests difenoconazole and Pyrimethanil compositional and (indoor toxicity test) is studied to the preventive and therapeutic effect of disease

One, reagent agent: difenoconazole, pyrimethanil raw medicine.By raw medicine acetone solution, and it is made into 10000 μ g/mL's Emulsifier Tween-80 is added with 0.2% volume fraction in mother liquor, stored at 4 DEG C in refrigerator it is spare, with sterile water when use It is diluted to debita spissitudo.

Two, for trying pathogen: Pathogen Botrytis cinerea Pers. ex of Garlic Sprout (Botrytis cinerea), Botryosphaeria berengeriana f. sp (Botryosphaeria dothidea), apple anthrax bacteria (Colletotrichum gloeosporiorides).

Three, indoor toxicity test method: matched using mycelial growth rate method p-phenylene methyl cyclic-azole, pyrimethanil and the two difference Toxicity test is carried out than combination, and calculates co-toxicity coefficient (CTC).

Single agent virulence determination method: reagent agent (including difenoconazole, pyrimethanil) is first configured to 5 concentration gradients (difenoconazole: 2.0,1.0,0.5,0.25,0.125mg/kg；Pyrimethanil: 2.0,1.0,0.5,0.25,0.125mg/kg), By pathogen in 26 DEG C of preculture 3d in PDA culture medium, with the punch of diameter 7mm on the same circumference close to colony edge It is beatened to take bacteria cake, is inoculated on the culture medium flat plate containing different agents concentration, every ware is a piece of, is placed in culture in 26 DEG C of insulating boxs 3d measures the colony growth diameter of each processing with crossing method, is control with clear water, and every concentration processing is repeated 4 times.Measure bacterium Radial linear increment is fallen, determines the inhibiting rate that medicament grows bacterium colony.Pass through mycelia growth inhibition probability value and drug concentration Linear regression analysis between logarithm finds out each medicament to concentration (EC in effective inhibition of bacterial strain₅₀Value).

Mixture joint toxicity measuring:, will be for the difenoconazole of mixture, pyrimethanil point on the basis of single dose toxicity test It An not its EC₅₀That 15:1,10:1,5:1,3:1,2:1,1:1,1:2,1:3,1:5,1:10 is respectively set is total for example by volume for value dosage 10 proportions, being configured to final mass concentration by different ratio is 1.0,0.5,0.25,5 0.125,0.0625mg/kg series The drug containing PDA culture medium of concentration, the inhibiting rate that measurement medicament grows mycelia.Every processing (every every concentration level of bacterial strain) repeats 4 It is secondary.By the linear regression analysis between mycelia growth inhibition probability value and drug concentration logarithm, Mixed Pharmacy is found out to bacterium Concentration EC in effective inhibition of strain₅₀Value and CTC value, using the PDA culture medium of not adding medicine as control.

Four, data statistic analysis

Test data is for statistical analysis by Microsoft Excel 2013, DPS data processing work platform, calculates The EC of every kind of medicament out₅₀Value, 95% confidence limit.The co-toxicity coefficient that mixed agent is calculated using Sun Yunpei's Method (1960), according to total poison The synergistic effect of coefficient magnitude evaluation mixed agent.

Each medicament inhibiting rate is calculated according to the following formula:

Inhibit growth rate (%)=[(control antibacterial circle diameter-processing antibacterial circle diameter)/(control antibacterial circle diameter -5mm Punch diameter)] × 100；

Inhibit growth rate (%)=[(control colony diameter-processing colony diameter)/(control colony diameter-bacteria cake diameter)] ×100；

Toxicity index TI=(standard agent EC₅₀/ reagent agent EC₅₀)×100；

Mixed agent actual toxicity index ATI=(standard agent EC₅₀/ mixture preparation EC₅₀)×100；

(PA and PB are respectively mixed agent to TI × PB of TI × PA+ single dose B of mixed agent theoretical toxicity index TTI=single dose A The percentage composition of middle effective component)；

Theoretical toxicity index TTI × 100 of the actual toxicity index ATI/ mixed agent of co-toxicity coefficient CTC=mixed agent；

Synergistic effect judgement: CTC >=120 have synergistic effect；80 < CTC < 120 are summation action；CTC≤80 are Antagonism.

Five, result and analysis: as shown in Table 1 to Table 3.

1 difenoconazole of table is with pyrimethanil different proportion mixture to the toxicity test result of the pathogen of Botrytis cinerea

Seen from table 1, difenoconazole and pyrimethanil and its mixture preparation have the pathogen of Botrytis cinerea and inhibit to make well With, when wherein the proportion of difenoconazole and pyrimethanil is between 10:1~1:5, to for try pathogen co-toxicity coefficient exist 120 or more, show that both compositions have good synergistic function under this proportion, especially proportion is in 5:1~1:2 Between, EC₅₀The EC that value is used alone significantly lower than difenoconazole and pyrimethanil₅₀Value, mixture preparation is to the pathogen of Botrytis cinerea Inhibitory activity significantly improves, and synergistic effect is more significant.

2 difenoconazole of table is with pyrimethanil different proportion mixture to the toxicity test result of Botryosphaeria berengeriana f. sp

As can be seen from Table 2, difenoconazole, pyrimethanil and its mixture preparation, have Botryosphaeria berengeriana f. sp and inhibit well Effect when wherein the proportion of difenoconazole and pyrimethanil is between 5:1~1:5, exists to the co-toxicity coefficient for trying pathogen 120 or more, show that both compositions have good synergistic function under this proportion, especially proportion is in 3:1~1:1 Between, the EC of mixture preparation₅₀The EC that value is used alone significantly lower than difenoconazole and pyrimethanil₅₀Value, synergistic effect is more Significantly.

3 difenoconazole of table is with pyrimethanil different proportion mixture to the toxicity test result of apple anthrax bacteria

Seen from table 3, difenoconazole and pyrimethanil and its mixture preparation have apple anthrax bacteria and inhibit well Effect when wherein the proportion of difenoconazole and pyrimethanil is between 5:1~1:3, exists to the co-toxicity coefficient for trying pathogen 120 or more, show that both compositions have good synergistic function under this proportion, especially proportion is in 3:1~1:2 Between, the EC of mixture preparation₅₀The EC that value is used alone significantly lower than difenoconazole and pyrimethanil₅₀Value, synergistic effect is more Significantly.

1 20% difenoconazole pyrimethanil aqueous emulsion of embodiment

Group is grouped as following (each component is by weight percentage):

The preparation method comprises the following steps: above-mentioned each active constituent, various auxiliary agents are sufficiently mixed in proportion, make to be dissolved into homogeneous oil phase, Under high-speed stirred, oil is mutually mixed with water, obtains 20% difenoconazole pyrimethanil aqueous emulsion.

2 27% difenoconazole pyrimethanil water dispersible granule of embodiment

Group is grouped as following (each component is by weight percentage):

The preparation method comprises the following steps: above-mentioned each active constituent, calcium lignosulfonate, wetting agent, disintegrating agent, filler is abundant in proportion Mixing, is crushed to 5 μm of partial size through airslide disintegrating mill, obtains female powder, be granulated after female powder and neopelex are sufficiently mixed, Drying, sieving, so that 27% difenoconazole pyrimethanil water dispersible granule be made.

3 36% difenoconazole pyrimethanil of embodiment

Group is grouped as following (each component is by weight percentage):

The preparation method comprises the following steps: above-mentioned each active constituent, various auxiliary agents and water are sufficiently mixed uniformly in proportion, investment is sanded Machine is ground to 5 μm of partial size, and 36% difenoconazole pyrimethanil is made.

4 40% difenoconazole pyrimethanil wettable powder of embodiment

Group is grouped as following (each component is by weight percentage):

The preparation method comprises the following steps: above-mentioned each active constituent, various auxiliary agents and filler are sufficiently mixed uniformly in proportion, mixture warp 40% difenoconazole pyrimethanil wettable powder is made in ultra-fine pulverizer disintegrating.

5 30% difenoconazole pyrimethanil microemulsion of embodiment

Group is grouped as following (each component is by weight percentage):

The preparation method comprises the following steps: above-mentioned each active constituent, various auxiliary agents are sufficiently mixed in proportion, make to be dissolved into homogeneous oil phase, Under high-speed stirred, oil is mutually mixed with water, obtains 30% difenoconazole pyrimethanil microemulsion.

Application example 1:30% difenoconazole pyrimethanil microemulsion prevents and treats the research of storage period apple anthracnose

On October 22nd, 2017, kind was Fuji in the Qufu City Wu villages and small towns apple orchard Wu Cun, and selection nothing is rotted, without machinery wound Apple carry out leaching fruit test.Apple is immersed to each chemicals treatment (30% difenoconazole pyrimethanil microemulsion 1200 respectively Again, 800 times, 500 times；50% 600 times of carbendazol wettable powder；43% 1500 times of tebuconazole suspension concentrates) and clear water control in (30% difenoconazole pyrimethanil microemulsion is prepared by embodiment 5), leaching fruit time are 30s, are subsequently placed in field tree lower berth It dries in the shade in the sterilizing filter paper of pad.Then transport Shandong Fruit-tree Inst. back, the pre-cooling in freezer (1.0 ± 1.0 DEG C of temperature) For 24 hours, 4 repetitions of every processing, 50 apples of every repetition are put into PE freshness protection package, and plastics fruit packaging can be had enough to meet the need by being then neatly put into In case, one repetition of every case, totally 192 case, is finally putting into freezer (1.0 ± 1.0 DEG C of temperature) and is stored.15d after storage, A case is taken out in each repetition of 30d, 45d, 60d respectively, carries out fruit rotting rate investigation.Processing method is same as above under 20 DEG C of room temperature.

Drug effect statistical analysis technique: pharmacy control efficacy is calculated according to the following formula；It is poor that the new multipole of Duncan is carried out using DPS software Examine its otherness (P≤0.05).

a.

b.

As a result as shown in table 4 (Fig. 1) (note: in table 4,5, each extension rate refers to quality multiple for solid dosage forms, For liquid dosage form, refer to volume multiple).

The pharmacodynamic results of 4 30% difenoconazole pyrimethanil microemulsion of table prevention and treatment storage period apple anthracnose

As shown in Table 4, it is cold after fruit processing is soaked after 30% 800 times of difenoconazole pyrimethanil microemulsion, 500 times are adopted Rotting rate under the conditions of hiding when Apples 60d is substantially less than 600 times of 50% carbendazol wettable powder of comparison medicament, 43% penta The rotting rate of 1500 times of azoles alcohol suspending agent is significantly better than other each processing to the control efficiency of apple anthracnose.Under room temperature, When 25d is investigated, 30% 800 times of difenoconazole pyrimethanil microemulsion, 500 times of processing are aobvious to the control efficiency of apple anthracnose It writes better than other each processing.Therefore, 30% difenoconazole pyrimethanil microemulsion leaching fruit processing apple, inhibition were stored after adopting The generation of apple anthrax bacteria in journey improves the commodity value of fruit to extend storage period.

Application example 2:36% difenoconazole pyrimethanil prevents and treats the gray mold research of storage period garlic stems

On May 4th, 2017 is tested in Jinxiang County town Yu Shan dedicated freezer of peasant household's garlic stems.Before garlic stems harvesting storage, in 1500 times of 36% difenoconazole pyrimethanil (preparation of embodiment 3), 1200 times, 800 times, 25% prochloraz aqueous emulsion 250 times, clear water control in dipping garlic stems tongue fur tip 30s, after draining away the water be put in storage storage.It is cooled to -0.3 DEG C ± 0.2 DEG C in advance to garlic stems Afterwards, silicon window bag storage, the normal freezer management together with other garlic stems are packed into.The experimental observation phase is 240 days.4 weights of each processing It is multiple, 2 bags of each repetition (every bag of about 19kg garlic stems).It rots respectively at 90d, 120d, 150d, 180d, 210d, 240d investigation garlic stems The indices such as rate, tongue fur tip color.

a.

b.

The results are shown in Table 5.

The pharmacodynamic test result of 5 36% difenoconazole pyrimethanil of table prevention and treatment garlic stems gray mold

As shown in Table 5, after slightly processing is soaked after 1200 times, 800 times of 36% difenoconazole pyrimethanil are adopted, garlic A kind of sedge stores 240d control efficiency 87% or more, and tongue fur slightly color is normal, and no phenomenon of losing water shows good anti-corrosive fresh-keeping Effect is significantly better than 250 times of 25% prochloraz aqueous emulsion.Therefore, it is outstanding using 36% difenoconazole pyrimethanil after garlic stems is adopted Floating agent dipping, spraying tongue fur slightly, can significantly inhibit the generation of gray mold in garlic stems storage, to extend storage period, improve storage Hide commodity.

Above-described embodiment is provided to those skilled in the art, how to implement and use to be advocated with full disclosure and description Embodiment, rather than for limiting range disclosed herein.Obvious modification will to those skilled in the art Within the scope of the appended claims.The all publications, patents and patent applications of this specification citation are incorporated by reference into this Text, as these publications, patents and patent applications respectively show particularly and individually to be incorporated herein by reference.

Claims (10)

1. a kind of bactericidal composition containing difenoconazole and pyrimethanil, it is characterised in that: effective component is difenoconazole thiophene The weight ratio of bacterium spirit and pyrimethanil, difenoconazole and pyrimethanil is 15:1~1:10.

2. the bactericidal composition according to claim 1 containing difenoconazole and pyrimethanil, it is characterised in that: the phenylate The weight ratio of methyl cyclic-azole and pyrimethanil is 10:1~1:5, further preferred 5:1~1:3, still further preferably 3:1~1:2.

3. the bactericidal composition according to claim 1 or 2 containing difenoconazole and pyrimethanil, it is characterised in that: described In bactericidal composition containing difenoconazole and pyrimethanil containing allow in Pesticide Science using with acceptable auxiliary material.

4. the bactericidal composition according to claim 3 containing difenoconazole and pyrimethanil, it is characterised in that: described to contain benzene What ether methyl cyclic-azole and the bactericidal composition of pyrimethanil were grouped as by the group of following parts by weight: difenoconazole 1%~60%, it is phonetic mould Amine 1%~60%, surplus be Pesticide Science in allow using with acceptable auxiliary material.

5. the bactericidal composition according to claim 3 or 4 containing difenoconazole and pyrimethanil, it is characterised in that: described Allow in Pesticide Science using with acceptable auxiliary material be selected from solvent, dispersing agent, diffusant, disintegrating agent, emulsifier, adsorbent, Stabilizer, wetting agent, defoaming agent, antifreeze etc. or other stabilizations for facilitating effective component drug effect and performance allow using Auxiliary agent.

6. the bactericidal composition according to any one of claims 1 to 5 containing difenoconazole and pyrimethanil, feature exist In: the dosage form of the bactericidal composition containing difenoconazole and pyrimethanil is wettable powder, suspending agent, aqueous emulsion, moisture Shot agent or microemulsion.

7. the bactericidal composition according to claim 5 containing difenoconazole and pyrimethanil, it is characterised in that: the sterilization The dosage form of composition is aqueous emulsion, is grouped as by the group of following weight percent:

Or: the dosage form of the bactericidal composition is water dispersible granules, is grouped as by the group of following weight percent:

Or: the dosage form of the bactericidal composition is suspending agent, is grouped as by the group of following weight percent:

Or: the dosage form of the bactericidal composition is wettable powder, is grouped as by the group of following weight percent:

Or: the dosage form of the bactericidal composition is microemulsion, is grouped as by the group of following weight percent:

8. the bactericidal composition according to any one of claims 1 to 7 containing difenoconazole and pyrimethanil is in prevention and treatment water fruit and vegetable Application in dish storage period disease.

9. application according to claim 8, it is characterised in that: the disease is selected from gray mold, anthracnose, ring spot, blueness Mildew.

10. application according to claim 8 or claim 9, it is characterised in that: when preventing and treating the pathogen of Botrytis cinerea, difenoconazole with The weight ratio of both pyrimethanils is preferred with 10:1~1:5, and more preferably, 2:1 is best by 5:1~1:1；When preventing and treating Botryosphaeria berengeriana f. sp, Difenoconazole and the weight ratio of both pyrimethanils are preferred with 5:1~1:5, and more preferably, 3:1 is best by 3:1~1:3；In prevention and treatment apple When anthrax bacteria, difenoconazole and the weight ratio of both pyrimethanils are preferred with 5:1~1:3, and more preferably, 3:1 is best by 3:1~1:2.