CN110495456A

CN110495456A - A kind of bactericidal composition

Info

Publication number: CN110495456A
Application number: CN201810472191.XA
Authority: CN
Inventors: 朱卫东
Original assignee: Jiangsu Ryco Chemical Co Ltd
Current assignee: Jiangsu Ryco Chemical Co Ltd
Priority date: 2018-05-16
Filing date: 2018-05-16
Publication date: 2019-11-26

Abstract

The invention belongs to a kind of technical field of pesticide, disclose a kind of bactericidal composition, one kind is principle active component using polyglutamic acid and in for amino-oligosaccharide, eugenol, humic acid copper, Brevibacillus laterosporus, bacillus subtilis, waxy Bacillus, bacillus licheniformis, the two mass ratio is 1:20~20:1, and quality hundred content of the sum of the two in bactericidal composition is 0.1-50%.The invention also discloses the bactericidal compositions can be prepared into aqueous suspension agent, wettable powder, water dispersible granules, granule, and for preventing and kill off powdery mildew, angular leaf spot, head blight, late blight, wilt disease, false smut, rice blast, bacterial wilt, soft rot, banded sclerotial blight, verticillium wilt, balck shank, anthracnose, late blight, gray mold, downy mildew, bacterial leaf-blight, epidemic disease, virosis, scab, rot disease, foot rot, full rot.Bactericidal composition of the invention is applied widely, prevent and prevention and treatment bactericidal effect is good.

Description

A kind of bactericidal composition

Technical field

The invention belongs to technical field of pesticide, especially fungicide field, and in particular to a kind of sterilization containing polyglutamic acid Composition.

Background technique

Polyglutamic acid is the product of microorganism (predominantly bacillus category) fermentation, is a kind of extracellular polypeptide, is to be at present Only it is only can be polymerize as microorganism obtained from 4 kinds of polymeric amino acids (poly-aspartate, gamma-polyglutamic acid, poly ornithine, One of epsilon-polylysine).A kind of water-soluble high-molecular material of the polyglutamic acid as novel biodegradable has moisturizing, increases The characteristics such as thick, film forming, bonding, nontoxic, water-soluble, biodegradable, are widely used it in pesticide field.

Amino-oligosaccharide is to degrade again obtained after obtaining chitosan by chitin degrading, or is extracted by microbial fermentation, right The growth of some germs generates inhibiting effect, influences fungus spore germination, induction hypha form morphs, biochemistry occurs in spore Change etc., while plant can be excited to generate the chitinase with resistant effect, dextranase, guarantor's element and PR albumen etc., and have Cell activation effect facilitates the recovery of aggrieved plant, and promoting root growth strong sprout enhances the resistance of crop, promotes plant growth and development. Not only there is extremely strong preventive effect, but also have effects that nutrition, adjusting, removing toxic substances to fungi, bacterium, virus.It can be widely used for Virus, bacterium, the fungus-caused disease for preventing and treating fruit tree, vegetables, underground rhizome, tobacco, Chinese medicine and grain and cotton crop.

Eugenol is botanical pesticide, which is to extract sterilization component from the plants such as cloves, is aided with a variety of auxiliary agents and grinds Novel low-toxicity fungicide made of system can effectively prevent gray mold, downy mildew to people and animals and Environmental security.

Humic acid copper is the chelate of humic acid, is that a kind of polynary organic acid mixes, they can with metal from Son reaction forms chelate, these chelates chemical substance in alkaline solution is more stable, not only there is stronger sterilizing ability, And without phytotoxicity.

Brevibacillus laterosporus is a kind of new type bactericide, can prevent and treat multiple diseases, such as capsicum epidemic disease, watermelon are withered Disease, wheat scab, grape grey mould, Strawberry anthracnose.

Bacillus subtilis is a kind of microbial bactericide, passes through the raw antibacterial material of effective component producing bacillus subtilis With the mode of action of site competition, induction of resistance, kills and control pathogen, to achieve the purpose that controlling disease.

Waxy Bacillus improves crop and endangers generation oxygen in primosome to germ and adverse circumstance by intracorporal SOD enzyme Scavenging activity adjusts crop cell microhabitat, the normal physiological metabolism of maintenance cell and biochemical reaction, improves resistance, accelerate Growth, improves the yield and quality.

Bacillus licheniformis is microbial bactericide, is that bacillus licheniformis is prevented using bacillary made of culture medium fermentation Sick preparation has strong antagonism to plant pathogenic fungi class, can effectively prevent cucumber and tobacco diseases.But as life Though the bacillus licheniformis lasting period of object pesticide is longer, the quick-acting of product is poor.

So far by polyglutamic acid and new type bactericide amino-oligosaccharide, eugenol, humic acid copper, the short gemma of side spore Bacillus, bacillus subtilis, waxy Bacillus, bacillus licheniformis compounding, both at home and abroad there is not yet relevant report, and inventor Research finds that the two compounding has good synergistic effect in a certain range, while preventing and treating disease, reaches volume increase Effect.

Based on the above situation, the purpose of the present invention is to provide a kind of bactericidal composition and its preparations.The bactericidal composition Prevention and treatment with bactericidal effect is good, stability is good, persistence is good, can effectively prevent powdery mildew, angular leaf spot, head blight, late blight, Wilt disease, false smut, rice blast, bacterial wilt, soft rot, banded sclerotial blight, verticillium wilt, balck shank, anthracnose, late blight, gray mold, Downy mildew, bacterial leaf-blight, epidemic disease, virosis, scab, rot disease, foot rot, full rot, aqueous suspension agent can be prepared into, can Wet powder, water dispersible granules, granule.

To achieve the purpose of the present invention, the invention provides the following technical scheme:

A kind of bactericidal composition, it is characterised in that the bactericidal composition includes effective constituents A and B, and A is polyglutamic acid, and B is Amino-oligosaccharide, eugenol, humic acid copper, Brevibacillus laterosporus, bacillus subtilis, waxy Bacillus, lichens bud The mass ratio of one of spore bacillus, A and B are 1:40~40:1, preferably 1:20~20:1, and sum of the two accounts for bactericidal composition Percentage composition be 0.1-50%.

In two-spot compound preparation of the invention, other than effective component, the auxiliary agent allowed on pesticide can be also added, to prepare At any one dosage form.It is preferred that being processed into wettable powder, water dispersible granules, granule, aqueous suspension agent.The insecticides adjuvant Including dispersing agent, wetability, thickener, antifreezing agent, preservative, thickener etc., using well known to a person skilled in the art auxiliary agents.

Instant component is reasonable, and effect is good, and its activity and the active simple superposition of bactericidal effect not instead of each component, With significant synergistic effect, to crop safety, there is excellent control efficiency to corps diseases.

Specific embodiment

Polyglutamic acid amino-oligosaccharide

12% polyglutamic acid amino-oligosaccharide wettable powder of S1

Polyglutamic acid 5%, amino-oligosaccharide 7%, dispersing agent sodium lignin sulfonate 1.5%, wetting agent detergent alkylate sulphur Sour sodium 1%, filler clay are supplied.It is made according to conventional preparation method.

10% polyglutamic acid amino-oligosaccharide wettable powder of S2

Polyglutamic acid 9.5%, amino-oligosaccharide 0.5%, dispersing agent sodium polycarboxylate 1.5%, wetting agent dodecyl sulphate Sodium 1%, filler bentonite are supplied.It is made according to conventional preparation method.

6% polyglutamic acid amino-oligosaccharide wettable powder of S3

Polyglutamic acid 0.5%, amino-oligosaccharide 5.5%, dispersing agent Negel 0.3%, wetting agent dodecyl Benzene sulfonic acid sodium salt 0.2%, filler attapulgite are supplied.It is made according to conventional preparation method.

30% polyglutamic acid amino-oligosaccharide water dispersible granules of S4

Polyglutamic acid 2%, amino-oligosaccharide 28%, dispersing agent sodium naphthalene sulfonate 3%, wetting agent lauryl sodium sulfate 2.5%, disintegrating agent ammonium sulfate 4.5%, binder starch 2%, filler diatomite are supplied.It is made according to conventional preparation method.

22% polyglutamic acid amino-oligosaccharide water dispersible granules of S5

The wooden disulfonate acid 1.5% of polyglutamic acid 4%, amino-oligosaccharide 18%, dispersing agent, wetting agent dodecyl sulphate Sodium 0.5%, disintegrating agent sodium sulphate 3%, binder methylcellulose 1%, filler clay are supplied.According to conventional preparation method system .

18% polyglutamic acid amino-oligosaccharide water dispersible granules of S6

The wooden disulfonate acid 1% of polyglutamic acid 17%, amino-oligosaccharide 1%, dispersing agent, wetting agent lauryl sodium sulfate 0.5%, disintegrating agent ammonium sulfate 2.5%, binder glucose 0.5%, filler attapulgite are supplied.According to conventional preparation method system .

8% polyglutamic acid amino-oligosaccharide granule of S7

Polyglutamic acid 0.5%, amino-oligosaccharide 7.5%, adhesive dextrin 7%, filler attapulgite are supplied.According to routine Formulation method is made.

0.2% polyglutamic acid amino-oligosaccharide granule of S8

Polyglutamic acid 0.19%, amino-oligosaccharide 0.01%, adhesive hydroxyethyl cellulose 2%, filler clay are supplied.It presses More solito formulation method is made.

5% polyglutamic acid amino-oligosaccharide granule of S9

Polyglutamic acid 1%, amino-oligosaccharide 4%, adhesive polyvinyl alcohol 5%, filler diatomite are supplied.According to conventional system Agent method is made.

14% polyglutamic acid amino-oligosaccharide aqueous suspension agent of S10

Polyglutamic acid 1%, amino-oligosaccharide 13%, dispersing agent xylonic acid sulfoacid calcium 1%, wetting agent dodecyl benzene sulfonic acid Sodium 0.5%, thickener xanthan gum 1%, thixotropic agent white carbon black 0.5%, antifreeze glycol 1%, preservative paraformaldehyde 0.5%, deionized water is supplied.It is made according to conventional preparation method.

21% polyglutamic acid amino-oligosaccharide aqueous suspension agent of S11

Polyglutamic acid 20%, amino-oligosaccharide 1%, the formaldehyde condensation products 2% of dispersing agent alkyl sodium naphthalene sulfonate, wetting agent amber Amber sodium dioctyl sulfo 1.5%, thixotropic agent white carbon black 1.5%, antifreezing agent propylene glycol 1%, is prevented thickener aluminium-magnesium silicate 1% Rotten agent Kathon CG 0.5%, deionized water are supplied.It is made according to conventional preparation method.

30% polyglutamic acid amino-oligosaccharide granule aqueous suspension agent of S12

The wooden disulfonate acid 3% of polyglutamic acid 5%, amino-oligosaccharide 25%, dispersing agent, wetting agent dodecyl benzene sulfonic acid Sodium 2%, thickener xanthan gum 1.5%, thixotropic agent white carbon black 2.5%, antifreezing agent glycerine 1.5%, preservative paraformaldehyde 1%, deionized water is supplied.It is made according to conventional preparation method.

Polyglutamic acid eugenol

30% polyglutamic acid eugenol wettable powder of S1

Polyglutamic acid 12%, eugenol 18%, dispersing agent sodium lignin sulfonate 4%, wetting agent dodecyl benzene sulfonic acid Sodium 3%, filler clay are supplied.It is made according to conventional preparation method.

24% polyglutamic acid eugenol wettable powder of S2

Polyglutamic acid 2%, dispersing agent sodium polycarboxylate 3%, wetting agent lauryl sodium sulfate 2%, is filled out eugenol 22% Material attapulgite is supplied.It is made according to conventional preparation method.

18% polyglutamic acid eugenol wettable powder of S3

Polyglutamic acid 17%, eugenol 1%, dispersing agent Negel 2%, wetting agent neopelex 1.5%, filler bentonite is supplied.It is made according to conventional preparation method.

37% polyglutamic acid eugenol water dispersible granules of S4

Polyglutamic acid 17%, eugenol 20%, dispersing agent sodium naphthalene sulfonate 4.5%, wetting agent lauryl sodium sulfate 2.5%, disintegrating agent ammonium sulfate 5.5%, binder starch 4%, filler diatomite are supplied.It is made according to conventional preparation method.

29% polyglutamic acid eugenol water dispersible granules of S5

The wooden disulfonate acid 3.5% of polyglutamic acid 2%, eugenol 27%, dispersing agent, wetting agent lauryl sodium sulfate 1.5%, disintegrating agent sodium sulphate 4.5%, binder methylcellulose 2.5%, filler clay are supplied.According to conventional preparation method system .

20% polyglutamic acid eugenol water dispersible granules of S6

The wooden disulfonate acid 2.5% of polyglutamic acid 19%, eugenol 1%, dispersing agent, wetting agent lauryl sodium sulfate 1%, disintegrating agent ammonium sulfate 3.5%, binder glucose 1.5%, filler attapulgite are supplied.According to conventional formulation method system .

1% polyglutamic acid eugenol granule of S7

Polyglutamic acid 0.35%, eugenol 0.65%, adhesive dextrin 4%, filler attapulgite are supplied.According to routine Formulation method is made.

5% polyglutamic acid eugenol granule of S8

Polyglutamic acid 4.75%, eugenol 0.25%, adhesive hydroxyethyl cellulose 6%, filler clay are supplied.According to Conventional preparation method is made.

10% polyglutamic acid eugenol granule of S9

Polyglutamic acid 1.5%, eugenol 8.5%, adhesive polyvinyl alcohol 8%, filler diatomite are supplied.According to routine Formulation method is made.

16% polyglutamic acid eugenol aqueous suspension agent of S10

Polyglutamic acid 1%, eugenol 15%, dispersing agent xylonic acid sulfoacid calcium 1.5%, wetting agent dodecyl benzene sulfonic acid Sodium 0.5%, thickener xanthan gum 0.5%, thixotropic agent white carbon black 1%, antifreeze glycol 1%, preservative paraformaldehyde 0.5%, deionized water is supplied.

27% polyglutamic acid eugenol aqueous suspension agent of S11

Polyglutamic acid 25.5%, eugenol 1.5%, the formaldehyde condensation products 2.5% of dispersing agent alkyl sodium naphthalene sulfonate, wetting Agent dioctyl sodium sulfosuccinate 1.5%, thickener aluminium-magnesium silicate 1.5%, thixotropic agent white carbon black 2%, antifreezing agent propylene glycol 1.5%, Preservative Kathon CG(Methylchloroisothiazolinone/Methylisothiazolinone combination) 1%, deionized water are supplied.It is made according to conventional preparation method.

32% polyglutamic acid eugenol aqueous suspension agent of S12

The wooden disulfonate acid 3.5% of polyglutamic acid 12%, eugenol 20%, dispersing agent, wetting agent detergent alkylate sulphur Sour sodium 2.5%, thickener xanthan gum 2%, thixotropic agent white carbon black 2.5%, antifreezing agent glycerine 1.5%, preservative poly first Aldehyde 1%, deionized water are supplied.Conventionally it is made.

Polyglutamic acid humic acid copper

13% polyglutamic acid humic acid copper wettable powder of S1

Polyglutamic acid 3%, humic acid copper 10%, dispersing agent sodium lignin sulfonate 1.5%, wetting agent dodecyl benzene sulfonic acid Sodium 1%, filler attapulgite are supplied.It is made according to conventional preparation method.

21% polyglutamic acid humic acid copper wettable powder of S2

Polyglutamic acid 20%, humic acid copper 1%, dispersing agent sodium polycarboxylate 2%, wetting agent lauryl sodium sulfate 1.5%, Filler bentonite is supplied.It is made according to long formulation method.

28% polyglutamic acid humic acid copper wettable powder of S3

Polyglutamic acid 2%, humic acid copper 26%, dispersing agent Negel 3%, wetting agent neopelex 2%, filler clay is supplied.It is made according to conventional preparation method.

40% polyglutamic acid humic acid copper water dispersion granula of S4

Polyglutamic acid 15%, humic acid copper 25%, dispersing agent sodium naphthalene sulfonate 4%, wetting agent lauryl sodium sulfate 3%, Disintegrating agent ammonium sulfate 6%, binder starch 4%, filler diatomite are supplied.It is made according to conventional preparation method.

31% polyglutamic acid humic acid copper water dispersion granula of S5

The wooden disulfonate acid 3.5% of polyglutamic acid 29.5%, humic acid copper 1.5%, dispersing agent, wetting agent dodecyl sulphur Sour sodium 1.5%, disintegrating agent sodium sulphate 5%, binder methylcellulose 2%, filler clay are supplied.According to conventional preparation method system .

25% polyglutamic acid humic acid copper water dispersion granula of S6

The wooden disulfonate acid 2% of polyglutamic acid 2%, humic acid copper 23%, dispersing agent, wetting agent lauryl sodium sulfate 1%, disintegrating agent ammonium sulfate 3.5%, binder glucose 1%, filler attapulgite are supplied.It is made according to conventional preparation method.

12% polyglutamic acid humic acid copper granule of S7

Polyglutamic acid 11.5%, humic acid copper 0.5%, adhesive dextrin 8%, filler attapulgite are supplied.According to routine Formulation method is made.

0.5% polyglutamic acid humic acid copper granule of S8

Polyglutamic acid 0.1%, humic acid copper 0.4%, adhesive hydroxyethyl cellulose 3%, filler clay are supplied.According to normal Regulation agent method is made.

7% polyglutamic acid humic acid copper granule of S9

Polyglutamic acid 0.5%, humic acid copper 6.5%, adhesive polyvinyl alcohol 5%, filler diatomite are supplied.According to routine Formulation method is made.

13% polyglutamic acid humic acid copper water suspending agent of S10

Polyglutamic acid 1%, humic acid copper 12%, dispersing agent xylonic acid sulfoacid calcium 1%, wetting agent neopelex 0.5%, thickener xanthan gum 1%, thixotropic agent white carbon black 1.5%, antifreeze glycol 1%, preservative paraformaldehyde 0.5%, deionized water is supplied.It is made according to conventional preparation method.

27% polyglutamic acid humic acid copper water suspending agent of S11

Polyglutamic acid 25.5%, humic acid copper 1.5%, dispersing agent alkyl sodium naphthalene sulfonate formaldehyde condensation products 2%, wetting agent Dioctyl sodium sulfosuccinate 1%, thixotropic agent white carbon black 2%, antifreezing agent propylene glycol 1.5%, is prevented thickener aluminium-magnesium silicate 1% Rotten agent Kathon CG 1%, deionized water are supplied.It is made according to conventional preparation method.

32% polyglutamic acid humic acid copper water suspending agent of S12

The wooden disulfonate acid 3% of polyglutamic acid 7%, humic acid copper 25%, dispersing agent, wetting agent neopelex 2.5%, thickener xanthan gum 1.5%, thixotropic agent white carbon black 3%, antifreezing agent glycerine 1.5%, preservative paraformaldehyde 1.5%, deionized water is supplied.It is made according to conventional preparation method.

Polyglutamic acid Brevibacillus laterosporus

31% polyglutamic acid Brevibacillus laterosporus wettable powder of S1

Polyglutamic acid 6%, Brevibacillus laterosporus 25%, dispersing agent sodium lignin sulfonate 4%, wetting agent detergent alkylate Sodium sulfonate 3%, filler clay are supplied.It is made according to conventional preparation method.

17% polyglutamic acid Brevibacillus laterosporus wettable powder of S2

Polyglutamic acid 16.2%, Brevibacillus laterosporus 0.8%, dispersing agent sodium polycarboxylate 3%, wetting agent dodecyl sulphur Sour sodium 2%, filler attapulgite are supplied.It is made according to conventional preparation method.

26% polyglutamic acid Brevibacillus laterosporus wettable powder of S3

Polyglutamic acid 2%, Brevibacillus laterosporus 24%, dispersing agent Negel 3.5%, wetting agent dodecyl Benzene sulfonic acid sodium salt 2.5%, filler bentonite are supplied.It is made according to conventional preparation method.

39% polyglutamic acid Brevibacillus laterosporus water dispersible granules of S4

Polyglutamic acid 13%, Brevibacillus laterosporus 26%, dispersing agent sodium naphthalene sulfonate 5%, wetting agent dodecyl sulphate Sodium 3%, disintegrating agent ammonium sulfate 6%, binder starch 4%, filler diatomite are supplied.It is made according to conventional preparation method.

31% polyglutamic acid Brevibacillus laterosporus water dispersible granules of S5

The wooden disulfonate acid 3% of polyglutamic acid 2%, Brevibacillus laterosporus 29%, dispersing agent, wetting agent dodecyl sulphur Sour sodium 1.5%, disintegrating agent sodium sulphate 4%, binder methylcellulose 2%, filler clay are supplied.According to conventional preparation method system .

21% polyglutamic acid Brevibacillus laterosporus water dispersible granules of S6

The wooden disulfonate acid 2% of polyglutamic acid 20%, Brevibacillus laterosporus 1%, dispersing agent, wetting agent dodecyl sulphur Sour sodium 0.5%, disintegrating agent ammonium sulfate 2.5%, binder glucose 1%, filler attapulgite are supplied.According to conventional preparation method It is made.

11% polyglutamic acid Brevibacillus laterosporus granule of S7

Polyglutamic acid 3%, Brevibacillus laterosporus 8%, adhesive dextrin 7%, filler attapulgite are supplied.According to routine Formulation method is made.

0.2% polyglutamic acid Brevibacillus laterosporus granule of S8

Polyglutamic acid 0.19%, Brevibacillus laterosporus 0.01%, adhesive hydroxyethyl cellulose 1.5%, filler clay It supplies.It is made according to conventional preparation method.

6% polyglutamic acid Brevibacillus laterosporus granule of S9

Polyglutamic acid 0.4%, Brevibacillus laterosporus 5.6%, adhesive polyvinyl alcohol 4%, filler diatomite are supplied.It presses More solito formulation method is made.

17% polyglutamic acid Brevibacillus laterosporus aqueous suspension agent of S10

Polyglutamic acid 2%, Brevibacillus laterosporus 15%, dispersing agent xylonic acid sulfoacid calcium 1%, wetting agent detergent alkylate Sodium sulfonate 0.5%, thickener xanthan gum 1.5%, thixotropic agent white carbon black 1%, antifreeze glycol 1%, preservative poly first Aldehyde 1%, deionized water are supplied.It is made according to formulation method.

29% polyglutamic acid Brevibacillus laterosporus aqueous suspension agent of S11

Polyglutamic acid 9%, Brevibacillus laterosporus 20%, the formaldehyde condensation products 1% of dispersing agent alkyl sodium naphthalene sulfonate, wetting Agent dioctyl sodium sulfosuccinate 1%, thickener aluminium-magnesium silicate 2%, thixotropic agent white carbon black 1.5%, antifreezing agent propylene glycol 1.5%, Preservative Kathon CG(Methylchloroisothiazolinone/Methylisothiazolinone combination) 1.5%, deionized water are supplied.It is made according to conventional preparation method.

32.5% polyglutamic acid Brevibacillus laterosporus aqueous suspension agent of S12

The wooden disulfonate acid 3% of polyglutamic acid 31%, Brevibacillus laterosporus 1.5%, dispersing agent, wetting agent dodecyl Benzene sulfonic acid sodium salt 2.5%, thickener xanthan gum 2.5%, thixotropic agent white carbon black 2%, antifreezing agent glycerine 2%, preservative poly Formaldehyde 1.5%, deionized water are supplied.It is made according to conventional preparation method.

Polyglutamic acid bacillus subtilis

31% polyglutamic acid bacillus subtilis wettable powder of S1

Polyglutamic acid 3%, bacillus subtilis 28%, dispersing agent sodium lignin sulfonate 5%, neopelex 4%, filler clay is supplied.It is made according to the method for conventional formulation.

27% polyglutamic acid bacillus subtilis wettable powder of S2

Polyglutamic acid 7%, dispersing agent sodium polycarboxylate 3.5%, lauryl sodium sulfate 2%, is filled out at bacillus subtilis 20% Material bentonite is supplied.It is made according to the method for conventional formulation.

13% polyglutamic acid bacillus subtilis wettable powder of S3

Polyglutamic acid 12.5%, bacillus subtilis 0.5%, dispersing agent Negel 2%, dodecyl benzene sulfonic acid Sodium 1.5%, filler attapulgite are supplied.It is made according to the method for conventional formulation.

41% polyglutamic acid bacillus subtilis water dispersible granules of S4

Polyglutamic acid 39%, bacillus subtilis 2%, dispersing agent sodium naphthalene sulfonate 5%, wetting agent lauryl sodium sulfate 3%, disintegrating agent ammonium sulfate 5%, binder starch 3%, filler diatomite are supplied.It is made according to conventional preparation method.

37% polyglutamic acid bacillus subtilis water dispersible granules of S5

The wooden disulfonate acid 3.5% of polyglutamic acid 2%, bacillus subtilis 35%, dispersing agent, wetting agent dodecyl sulphur Sour sodium 2%, disintegrating agent sodium sulphate 4.5%, binder methylcellulose 2.5%, filler clay are supplied.According to conventional preparation method It is made.

28% polyglutamic acid bacillus subtilis water dispersible granules of S6

The wooden disulfonate acid 2% of polyglutamic acid 12%, bacillus subtilis 16%, dispersing agent, wetting agent dodecyl sulphur Sour sodium 1%, disintegrating agent ammonium sulfate 3%, binder glucose 1.5%, filler attapulgite are supplied.According to conventional preparation method system .

0.16% polyglutamic acid bacillus subtilis granule of S7

Polyglutamic acid 0.06%, bacillus subtilis 0.1%, adhesive dextrin 2%, filler attapulgite are supplied.According to Conventional preparation method is made.

6% polyglutamic acid bacillus subtilis granule of S8

Polyglutamic acid 0.5%, bacillus subtilis 5.5%, adhesive hydroxyethyl cellulose 4%, filler clay are supplied.It presses More solito formulation method is made.

9% polyglutamic acid bacillus subtilis granule of S9

Polyglutamic acid 8.5%, bacillus subtilis 0.5%, adhesive polyvinyl alcohol 7%, filler diatomite are supplied.According to Conventional preparation method is made.

17% polyglutamic acid bacillus subtilis aqueous suspension agent of S10

Polyglutamic acid 7%, bacillus subtilis 10%, dispersing agent xylonic acid sulfoacid calcium 1%, wetting agent detergent alkylate sulphur Sour sodium 0.5%, thickener xanthan gum 0.5%, thixotropic agent white carbon black 1%, antifreeze glycol 1%, preservative paraformaldehyde 0.5%, deionized water is supplied.It is made according to conventional preparation method.

22% polyglutamic acid bacillus subtilis aqueous suspension agent of S11

Polyglutamic acid 2%, bacillus subtilis 20%, the formaldehyde condensation products 1.5% of dispersing agent alkyl sodium naphthalene sulfonate, wetting Agent dioctyl sodium sulfosuccinate 1%, thickener aluminium-magnesium silicate 1%, thixotropic agent white carbon black 1.5%, antifreezing agent propylene glycol 1.5%, Preservative Kathon CG(Methylchloroisothiazolinone/Methylisothiazolinone combination) 1%, deionized water are supplied.It is made according to conventional preparation method.

33% polyglutamic acid bacillus subtilis aqueous suspension agent of S12

The wooden disulfonate acid 4% of polyglutamic acid 31.5%, bacillus subtilis 1.5%, dispersing agent, wetting agent dodecyl Benzene sulfonic acid sodium salt 2.5%, thickener xanthan gum 1.5%, thixotropic agent white carbon black 2%, antifreezing agent glycerine 1.5%, preservative are more Polyformaldehyde 1%, deionized water are supplied.It is made according to conventional preparation method.

Polyglutamic acid waxy Bacillus

37% polyglutamic acid waxy Bacillus wettable powder of S1

Polyglutamic acid 35%, waxy Bacillus 2%, dispersing agent sodium lignin sulfonate 5%, wetting agent detergent alkylate sulphur Sour sodium 4%, filler clay are supplied.It is made according to conventional preparation method.

24% polyglutamic acid waxy Bacillus wettable powder of S2

Polyglutamic acid 3%, waxy Bacillus 21%, dispersing agent sodium polycarboxylate 3%, wetting agent lauryl sodium sulfate 2%, attapulgite is supplied.It is made according to conventional preparation method.

15% polyglutamic acid waxy Bacillus wettable powder of S3

Polyglutamic acid 5%, waxy Bacillus 10%, dispersing agent Negel 2%, wetting agent detergent alkylate sulphur Sour sodium 1.5%, bentonite are supplied.It is made according to conventional preparation method.

43% polyglutamic acid waxy Bacillus water dispersible granules of S4

Polyglutamic acid 3%, waxy Bacillus 40%, dispersing agent sodium naphthalene sulfonate 5%, wetting agent lauryl sodium sulfate 3.5%, disintegrating agent ammonium sulfate 5%, binder starch 3%, filler diatomite are supplied.It is made according to conventional preparation method.

36% polyglutamic acid waxy Bacillus water dispersible granules of S5

The wooden disulfonate acid 3.5% of polyglutamic acid 34%, waxy Bacillus 2%, dispersing agent, wetting agent dodecyl sulphur Sour sodium 1.5%, disintegrating agent sodium sulphate 4.5%, binder methylcellulose 2.5%, filler clay are supplied.According to conventional formulation side Method is made.

21% polyglutamic acid waxy Bacillus water dispersible granules of S6

The wooden disulfonate acid 2% of polyglutamic acid 6%, waxy Bacillus 15%, dispersing agent, wetting agent dodecyl sulphate Sodium 1%, disintegrating agent ammonium sulfate 3%, binder glucose 1.5%, filler attapulgite are supplied.According to conventional preparation method system .

0.3% polyglutamic acid waxy Bacillus granule of S7

Polyglutamic acid 0.1%, waxy Bacillus 0.2%, adhesive dextrin 1.5%, filler attapulgite are supplied.According to Conventional preparation method is made.

4% polyglutamic acid waxy Bacillus granule of S8

Polyglutamic acid 3.8%, waxy Bacillus 0.2%, adhesive hydroxyethyl cellulose 3.5%, filler clay are supplied. It is made according to conventional preparation method.

13% polyglutamic acid waxy Bacillus granule of S9

Polyglutamic acid 2%, waxy Bacillus 11%, adhesive polyvinyl alcohol 9%, filler diatomite are supplied.According to normal Regulation agent method is made.

13% polyglutamic acid waxy Bacillus aqueous suspension agent of S10

Polyglutamic acid 5%, waxy Bacillus 8%, dispersing agent xylonic acid sulfoacid calcium 1%, wetting agent detergent alkylate sulphur Sour sodium 0.5%, thickener xanthan gum 0.5%, thixotropic agent white carbon black 1%, antifreeze glycol 1%, preservative paraformaldehyde 0.5%, deionized water is supplied.It is made according to conventional preparation method.

24% polyglutamic acid waxy Bacillus aqueous suspension agent of S11

Polyglutamic acid 3%, waxy Bacillus 21%, the formaldehyde condensation products 1.5% of dispersing agent alkyl sodium naphthalene sulfonate, wetting Agent dioctyl sodium sulfosuccinate 1%, thickener aluminium-magnesium silicate 1%, thixotropic agent white carbon black 1.5%, antifreezing agent propylene glycol 1.5%, Preservative Kathon CG(Methylchloroisothiazolinone/Methylisothiazolinone combination) 1%, deionized water are supplied.It is made according to conventional preparation method.

38% polyglutamic acid waxy Bacillus aqueous suspension agent of S12

The wooden disulfonate acid 4% of polyglutamic acid 36%, waxy Bacillus 2%, dispersing agent, wetting agent detergent alkylate sulphur Sour sodium 2%, thickener xanthan gum 2%, thixotropic agent white carbon black 2.5%, antifreezing agent glycerine 2.5%, preservative paraformaldehyde 1.5%, deionized water is supplied.It is made according to conventional preparation method.

Polyglutamic acid bacillus licheniformis

37% polyglutamic acid bacillus licheniformis wettable powder of S1

Polyglutamic acid 35%, bacillus licheniformis 2%, dispersing agent sodium lignin sulfonate 5%, wetting agent detergent alkylate sulphur Sour sodium 4%, filler clay are supplied.It is made according to conventional preparation method.

23% polyglutamic acid bacillus licheniformis wettable powder of S2

Polyglutamic acid 7%, bacillus licheniformis 16%, dispersing agent sodium polycarboxylate 3%, wetting agent lauryl sodium sulfate 2%, filler attapulgite is supplied.

19% polyglutamic acid bacillus licheniformis wettable powder of S3

Polyglutamic acid 1%, bacillus licheniformis 18%, dispersing agent Negel 2%, wetting agent detergent alkylate sulphur Sour sodium 1.5%, filler bentonite are supplied.It is made according to conventional preparation method.

42% polyglutamic acid bacillus licheniformis water dispersible granules of S4

Polyglutamic acid 40%, bacillus licheniformis 2%, dispersing agent sodium naphthalene sulfonate 6%, wetting agent lauryl sodium sulfate 3%, disintegrating agent ammonium sulfate 5%, binder starch 3%, filler diatomite are supplied.It is made according to conventional preparation method.

36% polyglutamic acid bacillus licheniformis water dispersible granules of S5

The wooden disulfonate acid 3.5% of polyglutamic acid 4%, bacillus licheniformis 32%, dispersing agent, wetting agent dodecyl sulphur Sour sodium 1.5%, disintegrating agent sodium sulphate 4.5%, binder methylcellulose 2.5%, filler clay are supplied.According to conventional formulation side Method is made.

21% polyglutamic acid bacillus licheniformis water dispersible granules of S6

The wooden disulfonate acid 2% of polyglutamic acid 7%, bacillus licheniformis 14%, dispersing agent, wetting agent dodecyl sulphate Sodium 1%, disintegrating agent ammonium sulfate 3%, binder glucose 1.5%, filler attapulgite are supplied.According to conventional formulation method system Obtain water dispersible granules product of the invention.It is made according to conventional preparation method.

0.2% polyglutamic acid granular bacillus licheniformis agent of S7

Polyglutamic acid 0.08%, bacillus licheniformis 0.12%, adhesive dextrin 2.5%, filler attapulgite are supplied.It presses More solito formulation method is made.

7.5% polyglutamic acid granular bacillus licheniformis agent of S8

Polyglutamic acid 7.1%, bacillus licheniformis 0.4%, adhesive hydroxyethyl cellulose 6%, filler clay are supplied.It presses More solito formulation method is made.

14% polyglutamic acid granular bacillus licheniformis agent of S9

Polyglutamic acid 5%, bacillus licheniformis 9%, adhesive polyvinyl alcohol 8%, filler diatomite are supplied.According to routine Formulation method is made.16% polyglutamic acid bacillus licheniformis aqueous suspension agent of S10

Polyglutamic acid 6%, bacillus licheniformis 10%, dispersing agent xylonic acid sulfoacid calcium 1%, wetting agent detergent alkylate sulphur Sour sodium 0.5%, thickener xanthan gum 0.5%, thixotropic agent white carbon black 1%, antifreeze glycol 1%, preservative paraformaldehyde 0.5%, deionized water is supplied.It is made according to conventional preparation method.

29% polyglutamic acid bacillus licheniformis aqueous suspension agent of S11

Polyglutamic acid 27%, bacillus licheniformis 2%, dispersing agent alkyl sodium naphthalene sulfonate formaldehyde condensation products 2%, wetting agent Dioctyl sodium sulfosuccinate 1%, thixotropic agent white carbon black 2%, antifreezing agent propylene glycol 1.5%, is prevented thickener aluminium-magnesium silicate 1% Rotten agent Kathon CG 1%, deionized water are supplied.It is made according to conventional preparation method.

31% polyglutamic acid bacillus licheniformis aqueous suspension agent of S12

The wooden disulfonate acid 3.5% of polyglutamic acid 2%, bacillus licheniformis 29%, dispersing agent, wetting agent detergent alkylate Sodium sulfonate 2%, thickener xanthan gum 2%, thixotropic agent white carbon black 2.5%, antifreezing agent glycerine 2.5%, preservative poly first Aldehyde 1.5%, deionized water are supplied.It is made according to conventional preparation method.

Comparative example

3% polyglutamic acid aqua of D1 is made according to conventional preparation method

0.5% amino-oligosaccharide aqueous suspension agent of D2 is made according to conventional preparation method

0.3% eugenol soluble concentrate of D3 is made according to conventional preparation method

30% humic acid copper wettable powder of D4 is made according to conventional preparation method

10,000,000,000 spore of D5/gram Brevibacillus laterosporus wettable powder is made according to conventional preparation method

10,000,000,000 spore of D6/gram bacillus subtilis wettable powder is made according to conventional preparation method

2,000,000,000 spore of D7/gram waxy Bacillus wettable powder is made according to conventional preparation method

8,000,000,000 spores of D8/milliliter bacillus licheniformis aqua is made according to conventional preparation method

Toxicity determination test

Polyglutamic acid and amino-oligosaccharide

Subjects are rice blast.Test method is with reference to " NY/T 1156.6-2006 farm-chemical indoor determination examination Test the 6th part of criterion fungicide: mixed synergy measurement " and " NY/T 1156.8-2007 farm-chemical indoor determination examination Test the 8th part of criterion fungicide: prevention and treatment rice blast test pot-culture method ".According to survey data, the state of an illness for calculating each processing refers to Several and control efficiency.By the linear regression analysis between preventive effect probability value and the logarithm of series of concentrations, each medicament is found out EC₅₀Value.The co-toxicity coefficient (CTC) of mixture is calculated with Sun Yunpei's Method, and medicament is evaluated to the activity of germ with this.CTC≥120 Show as synergistic effect；CTC≤80 show as antagonism；80 < CTC < 120 show as summation action.

1 polyglutamic acid of table is with amino-oligosacchride promotor composition to the indoor toxicity test of rice blast

Chemicals treatment	EC₅₀(mg/L)	ATI	TTI	CTC
					Polyglutamic acid (A)	0.13	235.96	_	_
Amino-oligosaccharide (B)	0.58	100.00	_	_
					A:B=20:1	0.19	219.75	175.64	125.11
A:B=15:1	0.24	211.43	169.72	124.58
					A:B=10:1	0.27	204.68	164.38	124.52
A:B=5:1	0.31	198.57	158.51	125.27
					A:B=1:1	0.37	191.29	152.39	125.53
A:B=1:5	0.39	185.12	146.67	126.22
					A:B=1:10	0.42	181.45	140.85	128.82
A:B=1:15	0.46	176.63	136.49	129.41
					A:B=1:20	0.49	171.09	132.91	128.73

Table 1 shows that polyglutamic acid is compounded with amino-oligosaccharide shows as apparent synergistic effect to rice blast, especially It is 1:15 when ratio, and synergistic effect is the most significant.Applicant's test simultaneously is it has also been found that polyglutamic acid and amino-oligosaccharide When proportion is within the scope of 20:1-1:20, to cucumber fusarium axysporum, watermelon blight, tomato late blight, wheat scab, tobacco disease Viral disease, pear scab, there is synergistic effect.

Polyglutamic acid and eugenol

Subjects are tomato late blight.Test method is referring to " NY/T 1156.6-2006 farm-chemical indoor determination examination Test the 6th part of criterion fungicide: mixed synergy measurement " and " NY/T 1156.13-2008 farm-chemical indoor determination examination It tests the 13rd part of criterion fungicide: inhibiting late disease bacteria pilot blade method ".According to survey data, the state of an illness for calculating each processing refers to Several and control efficiency.By the linear regression analysis between preventive effect probability value and the logarithm of series of concentrations, each medicament is found out EC₅₀Value.The co-toxicity coefficient (CTC) of mixture is calculated with Sun Yunpei's Method, and medicament is evaluated to the activity of germ with this.CTC≥120 Show as synergistic effect；CTC≤80 show as antagonism；80 < CTC < 120 show as summation action.

2 polyglutamic acid of table and eugenol combine the indoor toxicity test to tomato late blight

Table 2 is as can be seen that polyglutamic acid and eugenol complex composition show as synergistic effect to tomato late blight；Its The proportion of middle polyglutamic acid and eugenol is 15:1, most significant to the synergistic effect of tomato late blight.Applicant's test simultaneously It has also been found that when the proportion of polyglutamic acid and eugenol is within the scope of 20:1-1:20, to graw mold of tomato, tomato downy mildew, kind Eggplant virosis, downy mildew of garpe, there is synergistic effect.

Polyglutamic acid and humic acid copper

Subjects: apple tree canker.Test method reference test method refers to " NY/T 1156.6-2006 pesticide room Interior the 6th part of bioassay test criterion fungicide: mixed synergy measurement " and " NY/T 1156.5-2006 pesticide room Interior bioassay test criterion fungicide part 2: inhibit disease fungus mycelia growth test Plating ".

According to survey data, the disease index and control efficiency of each processing are calculated.Pass through preventive effect probability value and series of concentrations Logarithm between linear regression analysis, find out the EC of each medicament₅₀Value.

The co-toxicity coefficient (CTC) of mixture is calculated with Sun Yunpei's Method, and medicament is evaluated to the activity of germ with this.CTC≥ 120 show as synergistic effect；CTC≤80 show as antagonism；80 < CTC < 120 show as summation action.

3 polyglutamic acid of table is with humic acid copper composition to the indoor toxicity test of apple tree canker

Table 3 is as can be seen that polyglutamic acid compounds with humic acid copper and shows as synergistic effect to apple tree canker；Wherein gather The proportion of glutamic acid and humic acid copper is 1:1, shows as synergistic effect to apple tree canker.Applicant's test simultaneously also found When the proportion of polyglutamic acid and humic acid copper is within the scope of 20:1-1:20, to mandarin tree foot rot, angular leaf spot of cucumber, there is increasing Effect effect.

Polyglutamic acid and Brevibacillus laterosporus

Subjects: capsicum epidemic disease.Test method is referring to " test of NY/T 1156.6-2006 farm-chemical indoor determination is quasi- Then the 6th part of fungicide: mixed synergy measurement " and " NY/T1156.2-2006 farm-chemical indoor determination test rule Fungicide part 2: inhibit disease fungus mycelia growth test Plating ".

According to survey data, the disease index and control efficiency of each processing are calculated.Pass through preventive effect probability value and series of concentrations Logarithm between linear regression analysis, find out the EC50 value of each medicament.

4 polyglutamic acid of table is with Brevibacillus laterosporus composition to the indoor toxicity test of capsicum epidemic disease

Chemicals treatment	EC₅₀(mg/L)	ATI	TTI	CTC
					Polyglutamic acid (A)	0.76	313.29	_	_
Brevibacillus laterosporus (B)	4.38	100.00	_	_
					A:B=1:20	0.99	264.37	200.39	131.93
A:B=15:1	1.43	258.81	195.65	132.28
					A:B=10:1	1.75	240.93	181.28	132.90
A:B=5:1	2.12	234.59	178.43	131.47
					A:B=1:1	2.53	226.74	164.56	137.79
A:B=1:5	2.98	213.97	157.49	135.86
					A:B=1:10	3.42	201.59	143.67	140.31
A:B=1:15	3.68	196.48	131.82	149.05
					A:B=1:20	4.09	181.27	126.48	143.32

Table 4 can be seen that polyglutamic acid and compound in the mass ratio range of 20:1-1:20 with Brevibacillus laterosporus, CTC value > 120, show as synergistic effect to capsicum epidemic disease；Wherein the proportion of polyglutamic acid and Brevibacillus laterosporus is 1: 15, synergistic effect is shown as to capsicum epidemic disease.Applicant's test simultaneously is it has also been found that polyglutamic acid and Brevibacillus laterosporus are matched When than within the scope of 20:1-1:20, to watermelon blight, wheat scab, grape grey mould, Strawberry anthracnose, there is synergy Effect.

Polyglutamic acid and bacillus subtilis

Subjects: graw mold of tomato.Test method is referring to " NY/T 1156.6-2006 farm-chemical indoor determination test The 6th part of criterion fungicide: mixed synergy measurement " and " NY/T1156.10-2008 farm-chemical indoor determination test The 11st part of criterion fungicide: prevention and treatment gray mold tests pot-culture method ".

5 polyglutamic acid of table is with bacillus subtilis bacteria composition to the indoor toxicity test of graw mold of tomato

Chemicals treatment	EC₅₀(mg/L)	ATI	TTI	CTC
					Polyglutamic acid (A)	0.0019	289.75	-	-
Bacillus subtilis (B)	0.0312	100.00	-	-
					A:B=20:1	0.0028	276.13	203.14	135.93
A:B=15:1	0.0043	257.92	189.75	135.93
					A:B=10:1	0.0065	238.71	172.38	138.48
A:B=5:1	0.0097	219.68	163.56	134.31
					A:B=1:1	0.0125	192.36	154.92	124.17
A:B=1:5	0.0168	178.54	143.27	124.62
					A:B=1:10	0.0204	176.72	130.98	134.92
A:B=1:15	0.0257	165.39	123.47	133.95
					A:B=1:20	0.0284	153.87	119.26	129.02

Table 5 can be seen that polyglutamic acid compounds in the mass ratio range of 20:1-1:20 with bacillus subtilis, CTC value > 120 show as synergistic effect to graw mold of tomato；Wherein the proportion of polyglutamic acid and bacillus subtilis is 10:1, right Graw mold of tomato shows as synergistic effect.Applicant's test simultaneously is it has also been found that the proportion of polyglutamic acid and Brevibacillus laterosporus is When within the scope of 20:1-1:20, to citrus bacterial canker disease, gray mold of cucumber, rice blast, rice green smut, bacterial blight of rice, Powdery mildew of cucumber, powdery mildew of strawberry, bacterial wilt of tomato, tobacco bacterial wilt, soft rot of cabbage, the late blight of potato, cotton yellow wither Disease, capsicum wilt, there is synergistic effect.

Polyglutamic acid and waxy Bacillus

Subjects are rice sheath blight disease.Test method is with reference to " NY/T 1156.6-2006 farm-chemical indoor determination examination Test the 6th part of criterion fungicide: mixed synergy measurement " and " NY/T 1156.5-2006 farm-chemical indoor determination examination It tests the 5th part of criterion fungicide: inhibiting Rhizoctonia solani Kuhn test Broad Bean Leaves method ".

6 polyglutamic acid of table is with waxy Bacillus composition to the indoor toxicity test of rice sheath blight disease

Chemicals treatment	EC₅₀(mg/L)	ATI	TTI	CTC
					Polyglutamic acid (A)	3.89	423.98	_	_
Waxy Bacillus (B)	15.03	100.00	_	_
					A:B=20:1	4.25	409.75	332.49	123.24
A:B=15:1	5.62	378.19	314.52	120.24
					A:B=10:1	6.79	334.94	279.08	120.02
A:B=5:1	7.57	295.35	241.67	122.21
					A:B=1:1	8.46	257.61	214.35	120.18
A:B=1:5	9.12	226.47	182.76	123.92
					A:B=1:10	10.43	191.29	156.81	121.99
A:B=1:15	11.98	164.85	131.27	125.58
					A:B=1:20	14.15	139.73	113.43	123.19

Table 6 show, polyglutamic acid is mixed by 20:1-1:20 with waxy Bacillus, to rice sheath blight disease show as it is bright Aobvious synergistic effect, especially when ratio is 1:15, synergistic effect is the most significant.Applicant's test simultaneously is it has also been found that polyglutamic acid When proportion with waxy Bacillus is within the scope of 20:1-1:20, to rice green smut, rice blast, eggplant bacterial wilt, grass Certain kind of berries powdery mildew, there is synergistic effect.

Polyglutamic acid and bacillus licheniformis

Subjects are cucumber downy mildew.Test method is with reference to " NY/T 1156.6-2006 farm-chemical indoor determination examination Test the 6th part of criterion fungicide: mixed synergy measurement " and " NY/T 1156.7-2006 farm-chemical indoor determination examination Test the 7th part of criterion fungicide: prevention and treatment cucumber downy mildew test pot-culture method ".

7 polyglutamic acid of table is with bacillus licheniformis composition to the indoor toxicity test of cucumber downy mildew

Table 7 shows that polyglutamic acid compounds (20:1-1:20) with bacillus licheniformis and shows as increasing to cucumber downy mildew Effect, especially when ratio is 1:15, synergistic effect is the most significant.Applicant's test simultaneously is it has also been found that polyglutamic acid and lichens gemma When the proportion of bacillus is 20:1-1:20 range, to take-all, Alternaria alternate, tobacco black shank, rice green smut, west Cucurbit wilt has synergistic effect.

2) field control effectiveness test

Polyglutamic acid and amino-oligosaccharide

Reagent agent: embodiment S1-12；Comparison medicament: comparative example D1, D2；Subjects: tomato late blight.

Test method: using conventional spraying methods, and period of disease is administered for the first time, is spaced 7d, is administered for the second time.

Investigation and statistical method: investigating state of an illness radix before application, 7d investigation is primary after being administered for the first time, after second is administered 7d, 14d are respectively investigated once.Every random 5 points of samplings of cell, often click two plants, every plant is divided upper, middle and lower to investigate 10 leaves, with every Lesion area on a piece of leaf accounts for the percentage of entire leaf area to be classified.Stage division:

0 grade: disease-free spot；

1 grade: lesion area accounts for entire 5% or less leaf area；

3 grades: lesion area accounts for entire leaf area 6%-10%；

5 grades: lesion area accounts for entire leaf area 11%-20%；

7 grades: lesion area accounts for entire leaf area 21%-50%；

9 grades: lesion area accounts for entire 50% or more leaf area.

Disease index=[(the disease numbers of sheets at different levels × opposite value of series)/(the investigation number of blade × 9) Σ] × 100

Control efficiency/%=(blank control disease index-chemicals treatment disease index)/blank control disease index × 100

Table 8 prevents and treats tomato late blight field trial

As can be seen from Table 8, polyglutamic acid is compounded with amino-oligosaccharide, and compared with single dose, which is improved Bactericidal effect, and preventive effect phase is long；Composition is made of the effective component of different role mechanism, and action site increases, and is conducive to Overcome and germ drug resistance is delayed to generate.Cucumber fusarium axysporum, watermelon blight, rice blast, gibberella saubinetii can be prevented and treated simultaneously Disease, tobacco virus, pear scab, control efficiency are also superior to the preventive effect of single dose.Rake is denoted as in test scope of medication Object is without influence.

Polyglutamic acid and eugenol

Reagent agent: embodiment S1-12；Comparison medicament: comparative example D1, D3；Subjects: tomato late blight.

Test method: using conventional spray-on process, early stage is administered for the first time, is spaced second of 10d and is administered.

0 grade: disease-free spot；

1 grade: lesion area accounts for entire 5% or less leaf area；

3 grades: lesion area accounts for entire leaf area 6%-10%；

5 grades: lesion area accounts for entire leaf area 11%-20%；

7 grades: lesion area accounts for entire leaf area 21%-50%；

9 grades: lesion area accounts for entire 50% or more leaf area.

Table 9 prevents and treats tomato late blight field trial

As can be seen from Table 9, polyglutamic acid is compounded with eugenol, the sterilization compared with single dose, to tomato late blight Effect improves, and preventive effect phase is long.Graw mold of tomato, tomato downy mildew, tomato virus disease, grape downy mildew can also be prevented and treated simultaneously Disease, control efficiency is also superior to the preventive effect of single dose, and preventive effect phase is long.Object is denoted as without influence on rake in test scope of medication.

Polyglutamic acid and humic acid copper

Reagent agent: embodiment S1-12；Comparison medicament: comparative example D1, D4；Subjects: angular leaf spot of cucumber.

Test method: using conventional spray-on process, early stage starts to be administered for the first time, is spaced 10d, is administered for the second time.

Investigation and statistical method: investigating state of an illness radix before application, 7d investigation is primary after being administered for the first time, after second is administered 7d, 14d are respectively investigated once.5 points of every cell diagonal line samplings, 3 plants every, 3 points of protecting field (canopy room) samplings, are adjusted by 5 plants every Whole blades are looked into, entire blade area percentage classification is accounted for every leaf spot lesion area.Stage division:

0 grade: disease-free spot；

1 grade: lesion area accounts for 5% or less full wafer leaf area；

3 grades: lesion area accounts for the 6%-10% of full wafer leaf area；

5 grades: lesion area accounts for the 11%-20% of full wafer leaf area；

7 grades: lesion area accounts for the 21%-50% of full wafer leaf area；

9 grades: lesion area accounts for 51% or more of full wafer leaf area.

Disease index=[(the disease numbers of sheets at different levels × opposite value of series)/(investigation total leaf number × 9) Σ] × 100

Table 10 prevents and treats angular leaf spot of cucumber field trial

Table 10 shows that compared with single dose, polyglutamic acid is improved with sterilizing ability of the humic acid copper to angular leaf spot of cucumber, and Preventive effect phase is long；Apple tree canker, mandarin tree foot rot can also be prevented and treated simultaneously, control efficiency is also superior to the preventive effect of single dose, And preventive effect phase is long.Object is denoted as without influence on rake in test scope of medication.

Polyglutamic acid and Brevibacillus laterosporus

Reagent agent: embodiment S1-12；Comparison medicament: comparative example D1, D5；Subjects: capsicum epidemic disease.

Test method: using conventional spray-on process, early stage starts to be administered for the first time, is spaced 20d, is administered for the second time.

Investigation and statistical method: investigating state of an illness radix before application, 10d investigation is primary after first time is administered, second of application 10d, 20d are respectively investigated once afterwards.5 points of every cell random searching, every is looked into 5 plants.Stage division: (being classified by symptom type)

0 grade: health is without disease；

1 grade: only leaf, fruit have scab to overground part；

3 grades: the aerial stem of plant, branch have brown rot spot；

5 grades: basal part of stem has brown rot spot；

7 grades: the aerial stem of plant, branch and basal part of stem have brown rot spot, and part branch is withered；

9 grades: complete stool is withered.

Table 11 prevents and treats capsicum epidemic disease field trial

Table 11 is shown, compared with single dose, polyglutamic acid of the invention and Brevibacillus laterosporus bactericidal composition are to capsicum Epidemic disease improves bactericidal effect, and preventive effect phase is long；Watermelon blight, wheat scab, grape grey mold can also be prevented and treated simultaneously Disease, Strawberry anthracnose, control efficiency is also superior to the preventive effect of single dose, and preventive effect phase is long.Rake is denoted as in test scope of medication Object is without influence.

Polyglutamic acid and bacillus subtilis

Reagent agent: embodiment S1-12；Comparison medicament: comparative example D1, D6；Subjects: powdery mildew of cucumber.

Investigation and statistical method: investigating state of an illness radix before application, 7d investigation is primary after being administered for the first time, after second is administered 7d, 14d are respectively investigated once.Every cell takes at 4 points at random, whole blades of every 2 plants of investigation.Stage division:

0 grade: disease-free spot；

1 grade: lesion area accounts for entire 5% or less leaf area；

3 grades: lesion area accounts for entire leaf area 6%-10%；

5 grades: lesion area accounts for entire leaf area 11%-20%；

7 grades: lesion area accounts for entire leaf area 21%-40%；

9 grades: lesion area accounts for entire 40% or more leaf area.

Disease index=[(the disease numbers of sheets at different levels × opposite value of series)/(investigation total number of sheets × 4) Σ] × 100

Table 12 prevents and treats powdery mildew of cucumber field trial

Table 12 shows that compared with single dose, which significantly improves the bactericidal effect of powdery mildew of cucumber, and preventive effect Phase is long；Citrus bacterial canker disease, gray mold of cucumber, graw mold of tomato, rice blast, rice green smut, rice can be also prevented and treated simultaneously Bacterial leaf-blight, powdery mildew of strawberry, bacterial wilt of tomato, tobacco bacterial wilt, soft rot of cabbage, the late blight of potato, cotton verticillium wilt, Capsicum wilt, and preventive effect phase is long.Object is denoted as without influence on rake in test scope of medication.

Polyglutamic acid and waxy Bacillus

Reagent agent: embodiment S1-12；Comparison medicament: comparative example D1, D7；Subjects: eggplant bacterial wilt.

Test method: spraying using routine, early stage starts to be administered for the first time, is spaced 10d, second of application, interval 10d, third time are administered.

Investigation and statistical method: 7d is investigated after being administered for the first time, and 7d is investigated after being administered for the second time, 7d tune after third time is administered It looks into.Every cell diagonal line fixes 5 points of samplings, and every is looked into 5 plants, and record investigates total strain number and diseased plant number.

Diseased plant rate=diseased plant number/investigation total strain number × 100

Control efficiency/%=(blank district diseased plant rate-treatment region diseased plant rate)/blank control diseased plant rate × 100

Table 13 prevents and treats eggplant bacterial wilt field trial

As can be seen from Table 13, compared with single dose, which obviously mentions the bactericidal effect of eggplant bacterial wilt Height, and preventive effect phase is long；Rice green smut, rice blast, rice sheath blight disease, powdery mildew of strawberry, prevention and treatment effect can be also prevented and treated simultaneously Fruit is also superior to the preventive effect of single dose, and preventive effect phase is long.Object is denoted as without influence on rake in test scope of medication.

Polyglutamic acid and bacillus licheniformis

Reagent agent: embodiment S1-12；Comparison medicament: comparative example D1, D8；Subjects: cucumber downy mildew.

Investigation and statistical method: investigating state of an illness radix before application, 7d investigation is primary after being administered for the first time, after second is administered 7d, 14d are respectively investigated once.Every cell takes 4 points of investigation at random, and every is looked into two plants, the whole piece leaves of every plant of investigation.Stage division (with Blade is unit):

0 grade: disease-free spot；

1 grade: lesion area accounts for 5% or less entire leaf area；

3 grades: lesion area accounts for the 6%-10% of entire leaf area；

5 grades: lesion area accounts for the 11%-25% of entire leaf area；

7 grades: lesion area accounts for the 26%-50% of entire leaf area；

9 grades: lesion area accounts for 50% or more of entire leaf area.

Table 14 prevents and treats cucumber downy mildew field trial

As can be seen from Table 14, compared with single dose, which obviously mentions the bactericidal effect of cucumber downy mildew Height, and preventive effect phase is long；It is withered that take-all, Alternaria alternate, tobacco black shank, rice green smut, watermelon can also be prevented and treated simultaneously It withers disease, control efficiency is also superior to the preventive effect of single dose, and preventive effect phase is long.Object is denoted as without influence on rake in test scope of medication.

It is known that the illustrative embodiments that above-described embodiment uses only for illustrating inventive principle, however it is of the invention It is not limited only to this, those skilled in the art can make various improvement and change in the case where not departing from real situation of the present invention, these It improves and change also belongs to protection scope of the present invention.

Claims

1. a kind of bactericidal composition, it is characterised in that: effective component is A and B, and the effective constituents A is polyglutamic acid, effectively Ingredient B is amino-oligosaccharide, eugenol, humic acid copper, Brevibacillus laterosporus, bacillus subtilis, wax gemma bar The mass ratio of one of bacterium, bacillus licheniformis, effective constituents A and B are 1:40~40:1, and sum of the two is in bactericidal composition In mass percentage be 0.1-50%.

2. bactericidal composition according to claim 1, it is characterised in that: the mass ratio of effective constituents A and B be 1:20~ 20:1。

3. bactericidal composition described in -2 any one according to claim 1, it is characterised in that: can be prepared into aqueous suspension agent, can Wet powder, water dispersible granules, granule.

4. bactericidal composition is used to prevent and treat crop disease and promote the purposes of plant growth according to claim 1.

5. bactericidal composition according to claim 4, it is characterised in that: the disease is powdery mildew, angular leaf spot, red mould Disease, late blight, wilt disease, false smut, rice blast, bacterial wilt, soft rot, banded sclerotial blight, verticillium wilt, balck shank, anthracnose, late blight Disease, gray mold, downy mildew, bacterial leaf-blight, epidemic disease, virosis, scab, rot disease, foot rot, full rot.