JPH08104602A - Biophylaxis stimulator for plant - Google Patents

Abstract

PURPOSE: To obtain a biophylaxis stimulator capable of increasing biophylaxis activity of a plant, suppressing withering caused by a germ, etc., attributable to a pathogen, stimulating the growth of a plant and keeping freshness of vegetable, and useful as a safe effective blotic pesticide. CONSTITUTION: This biophylaxis stimulator for a plant is composed of a biosynthetic derivative of a green leaf alcohol, e.g. cis- or trans-3-hexenol, cis- or trans-3-hexenal, trans-2-hexenal, trans-2-hexenol or a traumatic acid half aldehyde, as an active component. A cyclodextrin, a surfactant, etc., is preferably used together for increasing the stability of the preparation. In the case of an aqueous preparation, xyloglucan, a decomposed product of xyloglucan, gum guaiac or a decomposed product of gum guaiac is preferably used together for imparting the preparation with adequate stickiness, improving adhesivity to a plant and at the same time improving the stability of the preparation.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention is safe and useful as a biopesticide as a seed coating agent, an artificial seed capsule, a plant antibacterial agent, an antifungal agent, a freshness-retaining agent and a preservative for crops after harvest. The present invention also relates to a plant bioprotection enhancer comprising a green leaf alcohol biosynthesis inducer as an active ingredient.

[0002]

2. Description of the Related Art Currently, in the cultivation of agricultural products, a large amount of chemical pesticides are sprayed in order to prevent microbial infection or insect damage. For example, the seeds are treated with a chemical at the time of sowing to promote healthy germination, and further sprayed with the chemicals during the growing period and the fruiting stage to reduce damage from microbial infection or insect damage. However, there are various problems such as the effects of pesticides remaining on crops on the human body and the destruction of ecosystems by chemical pesticides.

Plants are inherently equipped with various defense functions against infections, and for example, in response to microbial infection, phytoalexin, an antibacterial substance that is not found in healthy tissues, is not induced. well known.
Phytoalexin is derived from bacterial cell components of the microorganism or fragments of polysaccharides constituting the cell wall of plants infected with the microorganism. Such a substance that induces phytoalexin is called elicitor.

Examples of substances having an elicitor activity include β-glucan derived from the cell wall of Phytophthora megasperma in Journal of Biological Chemistry, Vol. 259, 11312-11320 (1984). There is a description of fragments, and Scientific America Vol. 253, Vol.
44-50 (1985) and Agricultural and
Biological Chemistry, Vol. 54, pp. 1477-1484 (1990), describes oligogalacturonic acid which is a fragment of pectin.

Further, JP-A-5-331016 describes that xyloglucan oligosaccharide derived from tamarind seed polysaccharide has elicitor activity.

From the discovery of a substance called elicitor, the concept of biological pesticide was born, and it is considered that a substance having elicitor activity is used as a biological pesticide.
There are various problems in the price, supply amount, preparation method, etc. of polysaccharides as raw materials, which impede their practical application.

On the other hand, in Chemistry and Biology, Vol. 14, pp. 788-793 (1979) and Vol. 15, pp. 39-47 (1980), green leaf alcohol and green leaf aldehyde are the main components of the green odor of plants. , That it is widely distributed in the leaves, vegetables and fruits of plants, that the biosynthesis of these substances is carried out in chloroplasts, and that their main biosynthetic pathways and biosynthesis inducers are described. Has been done. This biosynthesis inducer is a series of biosynthesized from linolenic acid in plants by enzymes such as lipoxygenase, cis-3-hexenol (green leaf alcohol), cis-3-hexenal, trans-3-hexenol, trans-3-hexenal. , Transformer-2-
Hexenal (green leaf aldehyde), trans-2-hexenol, traumatic acid half aldehyde, etc. are known to increase in abundance during the germination stage of young shoots. However, its physiological meaning is not clear. Also, modern chemistry 19
In August 1993, pp. 58-63, it is described that green leaf alcohol has a repellent effect on leaf-feeding insects such as larvae of the bollworm, the gypsy moth. However, it is not known at all that the biosynthesis inducer of green leaf alcohol has a physiological action other than the repellent effect against foliar insects.

[0008]

Means for Solving the Invention The present inventor has a elicitor action of enhancing a biodefense ability of a plant by a biosynthesis inducer of green leaf alcohol, and as a biopesticide, a seed coating agent, an artificial seed capsule, It has been found that it can be used safely and effectively as an antibacterial and antifungal agent for plants and a preservative for post-harvest crops.

The green leaf alcohol biosynthesis-inducing substance can be extracted from the fresh leaves of the plant as an essential oil, for example, by a steam distillation method. For example, from 2000 kg of fresh tea leaves, 100 to 200 g of green leaf alcohol can be obtained. When the biosynthesis inducer is obtained as various mixtures, it may be used as it is, but it may be separated by column chromatography, high performance liquid column chromatography, or by utilizing the difference in physical properties such as boiling point and melting point. The inducer can be isolated.

In addition, biosynthesis inducers such as green leaf alcohol and green leaf aldehydes are chemically synthesized [agricultural
And Biological Chemistry, Vol. 39, p. 1617 (1975); Insecticidal Chemistry (Botyu-Kagaku), vol. 24, p. 532 (1960)]. For example, Aoba alcohol can be obtained commercially (Aldrich Catalog).

The biosynthesis-inducing substance for green leaf alcohol may be used alone, but it is usually used in combination with a solid carrier, a liquid carrier, a surfactant, an inclusion compound or other auxiliaries for formulation, and a wettable powder. , Emulsions, suspensions, solutions, aerosols, etc.

When the biosynthesis inducer of green leaf alcohol is used as an active ingredient, it may be used as such.
Usually, 0.001 to 5% by weight, preferably 0.01 to 3%
It is used as a liquid preparation diluted with a suitable solvent so as to contain wt%. Suitable solvents include water, methanol, ethanol and the like alone or a mixed liquid of two or more kinds thereof, and the liquid agent may contain a surfactant, cyclodextrin, polysaccharides and the like. A liquid agent diluted with an organic solvent such as alcohol is liquefied together with an inert gas and used as an aerosol. When used as a soaking solution for seed coating or soaking, 0.01 to
An aqueous solution of 30% by weight, preferably 0.1 to 15% by weight, is used.

When a biosynthesis-inducing substance for green leaf alcohol is used as a wettable powder, the active ingredient is 0.01%.
-30% by weight, preferably 0.1-25% by weight, may be mixed with a solid carrier, but it is usually mixed with a surfactant, cyclodextrin, polysaccharide, etc. and used as a prepared solid agent. It is dissolved or suspended in water or the like before use. Examples of the solid carrier include mineral powders such as calcium carbonate and diatomaceous earth, starch, and polymeric polysaccharides such as crystalline cellulose.

In order to improve the stability of the preparation containing the biosynthesis inducer of green leaf alcohol, it is preferable to use a surfactant, cyclodextrin and the like in combination. Surfactants are used as emulsifiers, dispersants, wetting agents, and the like, and examples thereof include alkylbenzene sulfonate, sorbitan fatty acid ester, lignin sulfonate, alkyl sulfate ester salt, and dodecyl polyoxyethylene ether. Further, the combined use with cyclodextrin is preferable because it includes the active ingredient, and as the cyclodextrin, α-, β-, γ-forms or macrocycles or branched ones, or cyclodextrin powder candy may be used alone. Alternatively, they are used as a mixture of two or more kinds in an appropriate mixing ratio.

Further, in order to impart appropriate viscosity to the aqueous liquid agent to improve the adherence to plants and improve the stability of the preparation, polysaccharides such as xyloglucan, xyloglucan degradation product, guar gum, guar gum degradation product and the like. Are preferably used in combination, and particularly low-viscosity polysaccharides such as xyloglucan degradation products and guar gum degradation products are particularly preferred. Furthermore, when the xyloglucan degradation product is a xyloglucan oligosaccharide, it is known to have elicitor activity, and therefore its combination is more preferable.

Drugs containing a green leaf alcohol biosynthesis inducer are other plant growth regulators, antibacterial agents, antifungal agents, herbicides, insecticides, acaricides, nematicides, fertilizers, soil conditioners. It is also possible to use it as a mixture with the above, or to treat the same plant several times by changing the treatment time.

Further, a drug containing a biosynthesis-inducing substance for green leaf alcohol is included in the soil or a substitute thereof for cultivating the plant, for example, in liquid fertilizer in hydroponic cultivation, in a hydroponic cultivation apparatus, and directly in the plant. Can be sprayed (applied), coated on plant seeds, encapsulated to make artificial seeds and added thereto, or coated on the plants themselves, eg whole vegetables after harvest or cut vegetables .

[0018]

EFFECTS OF THE INVENTION A drug containing a green leaf alcohol biosynthesis inducer as an active ingredient is sprayed (applied) to plants, added to a hydroponic solution during hydroponic cultivation, and seedlings or seeds are dipped or sprayed in a chemical solution to give the plant Enhances the biological defense ability of the plant, reduces the death of pathogenic bacteria, and promotes plant growth,
The freshness of vegetables can be maintained. The drug can be safely and effectively used as a biopesticide on plants.

[0019]

EXAMPLES The present invention will be described in more detail below with reference to production examples and examples.

(Production Example 1) 10 kg of fresh tea leaves were ground and then subjected to steam distillation to obtain 18 g of a green leaf alcohol biosynthesis inducer as an essential oil.

(Production Example 2) 10 k fresh leaves of alfalfa
After grinding g, it was subjected to steam distillation, and the obtained essential oil was repeatedly fractionated and rectified to obtain green leaf alcohol having a boiling point of 157 ° C. and boiling point 1
2.2 g and 0.6 g of 45 ° C. green leaf aldehyde were obtained, respectively.

( Example 1) Biological pesticide : 50 seeds of kaiware radish were sown in a glass container in which a synthetic resin wool mat was set, and 100 ml of tap water was added. Further, in test group 1, 20 parts of green leaf alcohol and 53 of diatomaceous earth were used.
Part, white carbon 20 parts, cyclodextrin 2
Parts, 3 parts of a wetting agent (sodium lauryl sulfate) and 2 parts of a dispersant (calcium lignin sulfonate) were thoroughly pulverized and mixed, and 0.5 g of a wettable powder having a green leaf alcohol content of 20% was added. Also, in the test group 2, 20 parts of green aldehyde, 53 parts of diatomaceous earth, 20 parts of white carbon,
Add 2 parts of cyclodextrin, 3 parts of wetting agent (sodium lauryl sulphate) and 2 parts of dispersant (calcium lignin sulfonate), thoroughly pulverized and mixed, and add 0.5 g of wettable powder with 20% green leaf aldehyde content. did. Both the control group and the test group were cultivated at 25 ° C. for 4 days in the dark and 2 days in the light for a total of 6 days. The growth state was observed on the 7th day. The results are shown in Table 1.

[0023]

[Table 1]

In the test group to which green leaf alcohol (test group 1) and green leaf aldehyde (test group 2) were added, the growth was better than those of the non-added control group, and the death from pathogenic bacteria was significantly reduced.

( Example 2) Seed coating agent : 50 ml of tomato seeds were prepared in the same manner as in Example 1 with 25% of a wettable powder having a green leaf alcohol content of 10% and a guar gum enzymatic decomposition product (Dainippon Pharmaceutical Co., Ltd.). Co., Ltd .: trade name "Fiberon S") was added to an aqueous solution containing 2% and gently stirred for 10 minutes. The seeds were lifted, air-dried and used as seeds of tomatoes in the test group. As a control group, untreated tomato seeds were used. Seeds of tomatoes from both groups were sown on a vermiculite nursery, sprayed with water and germinated. After 10 days, seedlings were raised in a polybat having a diameter of 12 cm together with vermiculite for breeding. Thirty days after the pot was raised, tomatoes were planted in a field fertilized with organic chemical fertilizer, and the growth state and harvest amount of the tomatoes were examined. Table 2 shows the results.

[0026]

[Table 2] ^* + ^Indicates damage, and-indicates no damage. ^** p <0.01

The test group to which the green leaf alcohol was added showed significantly better growth and better harvest than the control group.

Claims (5)

[Claims] 1. A biological defense enhancer for plants, which comprises a green leaf alcohol biosynthesis inducer as an active ingredient. 2. A green leaf alcohol biosynthesis inducer is cis-3-hexenol, cis-3-hexenal, trans-3-hexenol, trans-3-hexenal,
The plant bioprotection enhancer according to claim 1, which is trans-2-hexenal, trans-2-hexenol or traumatic acid half aldehyde, and which is composed of a single compound or a mixture of two or more compounds. 3. The plant biological defense enhancer according to claim 1, wherein the biosynthesis inducer of green leaf alcohol is cis-3-hexenol or trans-2-hexenal. 4. The plant bioprotection enhancer according to claim 1, which comprises a combination of a green leaf alcohol biosynthesis inducer and cyclodextrin. 5. The plant according to claim 1, which comprises a combination of a biosynthesis inducer of green leaf alcohol and one or more selected from xyloglucan, xyloglucan degradation product, guar gum and guar gum degradation product. Biological defense enhancer.