JP4836763B2 - Thrips control agent - Google Patents

Description

  The present invention relates to agricultural pests such as Frankliniella occidentalis, Thrips tabaci (Lindeman), Thrips palmi (Karny), and Scirtothrips dorsalis Hood. The present invention relates to an agent and a control method.

  In crop production, human-friendly and nature-friendly farming efforts such as reducing pesticides are actively being studied for the purpose of reducing environmental burdens and reducing risks to the health of farmers and consumers.

  Thrips are edible and parasitize and harm various crops. Among these, the citrus yellow thrips are important pests to be controlled, such as spreading the damage by tomato yellow gangrene virus (TSWV). However, since the body length of adult thrips is as small as 1 to 2 mm, it is difficult to specify the type, and since effective drugs differ depending on the type of thrips, it is difficult to control precisely. Therefore, there is a demand for a control agent that is effective for many types of thrips, has high safety, and has low environmental impact.

  Conventionally, drugs such as organic phosphorus agents, nereistoxin agents, and IGR agents (growth inhibitors) have been used. However, there are many problems in using agrochemicals effectively against thrips. That is, one of the reasons why pesticide control is difficult is that many species of thrips have developed resistance (resistance) to many pesticides. The other is that both adults and larvae live in the back of flowers and in the gaps between fruits and vegetables. Therefore, if the occurrence of adults is observed, the actual situation is that the insecticidal effect does not appear unless an agricultural chemical is sprayed at intervals of 4 to 5 days.

  On the other hand, the heavy use of pesticide spraying not only adversely affects agricultural workers and increases the burden on the environment, but also disrupts the biological flora balance and causes insects to further develop resistance.

  Other control methods include spraying plant extracts and dry-distilled plants as traditional natural farming methods, and installing color adhesive tapes and adhesive plates in the facility using the property that thrips are attracted to blue and yellow. However, a method of capturing and reducing the density of pests and a method of installing an insect repellent net in the opening have been proposed and used to prevent entry into the facility. In addition, a silver or white mulch that efficiently reflects sunlight is applied to the ground to control the thrips and prevent damage. More recently, thrips natural enemies are introduced and controlled in the facility. Methods are also being developed.

  However, since thrips are edible, have a long egg-laying period, and are extremely proliferating, none of the above-described control methods has been effective enough.

  Conventionally, a method for controlling thrips using a fragrance component has also been proposed with a focus on the effect of controlling the fragrance component. For example, a method using eugenol and beta ionone (see Patent Document 1), Synamic There are a method using an aldehyde and an ortho-cinnamic aldehyde (Patent Document 2), a method using a thiazole compound (see Patent Document 3), and the like.

Japanese Patent No. 2602912 Japanese Patent Laid-Open No. 1-261303 Japanese Patent Publication No. 8-2767

  However, it is desired that the control agent has a control effect on many kinds of thrips, and the methods described in Patent Documents 1 to 3 are intended to control Southern thrips among thrips. It is.

  This invention is made | formed in view of the said situation, and it aims at providing the control agent excellent in the control effect with respect to many types of thrips.

  As a result of intensive studies to solve the above-mentioned problems, the present inventors have found that by using a combination of specific perfume ingredients, it is effective in controlling various types of thrips, and the present invention has been completed. It has been made.

That is, the gist of the present invention is as follows.
[1] A control agent for orange thrips, thrips thrips and white thrips containing only guaiacol, eugenol, beta ionone, linalool and isobutylthiazole as active ingredients.

  The control agent of the present invention exerts a control effect (repellent effect) against citrus yellow thrips, white thrips, southern thrips and chano thrips. These perfume ingredients are widely used in processed foods, pharmaceuticals, oral preparations, cosmetics, fragrances, etc., and are extremely toxic compared to chemical pesticides, have no negative impact on the health of farmers, and are volatile. So there is no problem of residual toxicity. In addition, since it is a component that exists widely in nature, there is little impact on the environment.

  The control agent of the present invention is characterized in that it contains guaiacol, eugenol, beta ionone, linalool and isobutylthiazole as active ingredients. The above five types of fragrance ingredients are commercially available and widely used as food fragrances and cosmetic fragrances (FY2003 research on ensuring chemical safety of food fragrances and natural additives (food fragrance compounds in Japan Survey of usage of the Japanese perfume industry association).

  In the present invention, the active ingredient can be used as a composition as a control agent as it is, but the active ingredient may be formulated into a normal preparation form such as a solid phase or a liquid phase. In formulating, according to a conventional method, for example, the above-mentioned active ingredient is dissolved, mixed or adsorbed in a carrier, and if necessary, a conventional formulation auxiliary agent such as an emulsifier (dispersant) is added to obtain an oil agent, Emulsions, wettable powders, powders, granules, tablets, aerosols and the like can be used.

  Examples of carriers used in the preparation of solid phase forms include mineral powders such as silicic acid, calcium silicate, kaolin, bentonite, talc, acid clay, calcium carbonate, and alumina, activated carbon, starch, and soybean powder. Examples include inclusion compounds such as plant powders and cyclodextrins.

  Examples of the carrier in formulating in the liquid phase include alcohols such as ethyl alcohol, isopropyl alcohol, ethylene glycol, propylene glycol, glycerin and sugar alcohol, ketones such as acetone and methyl ethyl ketone, dioxane, tetrahydrofuran and methyl. Ethers such as cellosolve, hexane, kerosene, paraffin, petroleum benzine, aliphatic hydrocarbons such as α- and β-pinene, limonene, aromatic hydrocarbons such as toluene, xylene, ethyl acetate, butyl acetate, acetic acid Examples include acetates such as aluminum.

  Examples of emulsifiers and dispersants include polyoxyethylene alkyl ethers, polyoxyethylene alkyl allyl ethers, polyoxyethylene fatty acid esters, glycerin fatty acid esters, sorbitan fatty acid esters, higher alcohol sulfates, and casein. And vegetable natural resins such as gelatin, agar, carboxymethylcellulose, gum arabic and the like. As the aerosol propellant, for example, liquefied petroleum gas, dimethyl ether, fluorocarbon and the like can be used.

  In addition to the additives described above, the control agent of the present invention may contain a conventional efficacy enhancer, an antioxidant, an insecticide, a coloring agent, and the like, if necessary.

The control agent of the present invention can be suitably applied to areas contaminated with citrus yellow thrips, white thrips , southern thrips, and chano thrips, such as crop cultivation fields and orchards.

  The method of using the control agent of the present invention may be any method as long as it is sprayed around a plant area to be protected from thrips or applied to a sheet base material so that an aroma (odor) drifts. Good.

  The amount of the five active ingredients used can be appropriately determined according to the dosage form, application method, application location, etc., and is not necessarily limited. For example, when used in the form of a liquid phase such as a wettable powder, the active ingredient is desirably contained in the preparation in an amount of 0.1 to 20% by weight, preferably 1 to 10% by weight. In addition, in the form of a solid phase such as a powder or a granule, it is desirable to contain 0.1 to 30% by weight, preferably 1 to 20% by weight of the active ingredient in the preparation. , Non-woven fabric, etc.), it is preferable to impregnate about 1/3 times the saturated impregnation amount of the sheet base material.

In addition, the minimum effective concentration of the control agent according to the present invention is, for example, 0.001 mg / m ³ or more in terms of vapor, solid phase or sheet base material when used in the form of a liquid phase. When used in such a form, a sufficient control effect is exhibited by volatilizing the above active ingredient in an amount of 0.01 mg / m ³ or more in terms of vapor. Even at a concentration lower than this, a sufficient control effect can be obtained depending on the degree of pest density, and thus the concentration is not limited.

  Hereinafter, the present invention will be described in more detail with reference to test examples and the like, but the present invention is not limited thereto.

1. Production Example of Control Agent (1)
Each fragrance component, carrier and emulsifier (all commercially available products) shown in the following Formulation Example 1 were mixed to obtain a control agent (invention product) formulated into an emulsion. The carrier D-sorbitol solution uses sorbit (trade name) manufactured by Towa Kasei Kogyo Co., Ltd., and the emulsifier decaglycerin monolaurate is SY Glyster ML-750 (trade name) manufactured by Sakamoto Pharmaceutical Co., Ltd. Using.
<Prescription Example 1>
Eugenol 4 parts by weight Linanol 2 parts by weight Beta ionone 2 parts by weight Guayacol 2 parts by weight Isobutylthiazole 0.01 parts by weight
D-sorbitol solution 86.99 parts by weight Total 100 parts by weight

2. Control test (1)
In a glass room, one eggplant seedling was taken as 1 ward, and a control test was conducted in a 10 ward system. The control agent produced in “1. Production Example 1 of Control Agent” was diluted 2000 times with water, and a sufficient amount was sprayed with a sprayer. Immediately before spraying, 3 days after spraying, 7 days later, 10 days later, 14 days later, the number of parasites of citrus thrips was examined separately for adults and larvae on 2 leaves (20 leaves in total) in each section. Moreover, what carried out the same investigation as the above without using a control agent was made into the control | contrast. Table 1 shows the results.

  From Table 1, it turned out that the control agent of this invention shows a high control effect with respect to Citrus thrips.

3. Control test (2)
A control test was conducted on Negia thrips using open-cultivated green onions. Specifically, the control agent manufactured in “1. Control Agent Production Example 1” was diluted 2000 times with water, and a sufficient amount of the control agent was sprayed onto the leek using a sprayer. Immediately before spraying, 4 days after spraying, 4 days, and 7 days after spraying, the total number of parasites of Negia thrips was examined on 40 leaves in each section, totaling adults and larvae. In addition, a green onion in the same field as the green onion was subjected to the same investigation as described above without using a control agent. Table 2 shows the results.

  From Table 2, it was found that the control agent of the present invention exhibits a high control effect against Negia thrips.

4). Production Example of Control Agent (2)
Each fragrance component and carrier (both commercially available) shown in the following Formulation Example 2 were mixed to obtain a control agent (invention product) formulated into an oil.
<Prescription Example 2>
Eugenol 4 parts by weight Linanol 1.5 parts by weight Beta ionone 1.5 parts by weight Guayacol 2 parts by weight Isobutylthiazole 0.01 parts by weight
Paraffin 90.99 parts by weight Total 100 parts by weight

5). Control test (3)
The control agent manufactured in “4. Control Agent Production Example (2)” was sealed in a bag made of a gas permeable film to prepare a gas permeable control material. This material was suspended at a position 1 m above the eggplant cultivated in the facility, and a control test was conducted with the surrounding area 3 m × 3 m (9 m ² ) as a test zone and a place more than 5 m away as a control zone. Immediately before the installation, 7 days, 14 days, 20 days, and 28 days later, the number of parasites of thrips of thrips of 30 leaves per 30 leaves was examined for 10 strains in each ward. Table 3 shows the results.

  From Table 3, it turned out that the control agent of this invention shows a high control effect with respect to Southern thrips thrips.

6). Control test (4)
In the grape house field, it was set to 100 m ² in 1 ward, and the control test against the tea tree thrips was repeated twice. The control agent produced in “1. Production Example 1 of Control Agent” was diluted 1000 times with water, and 40 liters of 1 ward was sprayed with a sprayer. Spraying was performed three times at weekly intervals, and after 3 months from the first spraying, the degree of damage to the cob of the grape was investigated, and the damaged cob rate and the degree of damage were calculated. Moreover, what carried out the same investigation as the above without using a control agent in the same house was used as a control. Table 4 shows the results.

  From Table 4, it turned out that the control agent of this invention shows a high control effect with respect to Chano yellow thrips.

  INDUSTRIAL APPLICABILITY The present invention can be widely used as a control agent having an excellent control effect against many types of thrips.

Claims (1)

A pest control agent for citrus thrips, thrips and negia thrips, which contains only guaiacol, eugenol, beta ionone, linalool and isobutylthiazole as active ingredients.