KR20150063047A - Method for preventing/controlling rice diseases - Google Patents

Abstract

The present invention relates to a process for surface treatment of rice seeds with iron powder, a step of surface-treating or immersing the seeds with a resistance-inducing agent, and a step of seeding the rice seedlings . According to the present invention, it is possible to effectively control rice blight.

Description

{METHOD FOR PREVENTING / CONTROLLING RICE DISEASES}

The present invention relates to a method for controlling rice blight.

BACKGROUND ART [0002] Conventionally, there has been known a technique for controlling rice bacterial blight by using iron seed-coated rice seeds in box seedlings (see, for example, Patent Document 1 and Non-Patent Document 1).

In addition, many compounds are known as effective components of a plant disease control composition (see, for example, Non-Patent Document 2).

Japanese Patent Application Laid-Open No. 2006-232690

 Japanese Plant Pathology Bulletin, Japanese Society of Plant Pathology, August 2009, Vol. 75, No. 3, p.164-169  The Pesticide Manual-15th edition (published by BCPC) ISBN 978-1-901396-18-8

It is an object of the present invention to provide a method capable of effectively controlling the rice blight during the growing season.

The inventors of the present invention have conducted studies to find out a method for effectively controlling rice blight during growing period. As a result, they have found that rice seeds are surface-treated with iron powder before sowing and further subjected to surface treatment or immersion treatment with a disease- , It was found that rice paddy disease can be effectively controlled during the growing period.

That is, the present invention is as follows.

[1] A method for controlling rice pests, which comprises a step of surface-treating rice seeds with iron powder, a step of surface-treating or immersing the seeds with a resistance inducing agent, and a step of seeding the rice seeds.

[2] The method for controlling rice blight disease according to [1], wherein 100 to 2000 grams of iron powder and 1000 to 400 grams of a resistance inducing agent are used per 1000 grams of rice seeds.

[3] The method for controlling a disease caused by rice as set forth in [1] or [2], wherein the disease resistance-inducing agent is isothianyl, provenazole or thiadinyl.

[4] The process

A step of surface-treating rice seeds with iron powder,

A step of surface treatment or immersion treatment of the rice seed treated with iron as a resistance inducing agent,

And a step of seeding rice seeds treated with iron powder and a disease resistance inducing agent in the order named.

[5] The process

A step of surface treatment or immersion treatment of rice seeds with a resistance inducing agent,

A step of surface treating rice seeds treated with a disease resistance inducing agent with iron powder,

And a step of seeding rice seeds treated with iron powder and a disease resistance inducing agent in the order named.

[6] The process

A step of simultaneously treating the rice seeds with an iron powder and a disease resistance inducing agent,

And a step of seeding rice seeds treated with iron powder and a disease resistance inducing agent in the order named.

[7] The method according to any one of [1] to [6], wherein iron is iron oxide.

[8] A method of controlling rice disease disease characterized by seeding rice seeds treated with iron and a disease resistance inducing agent.

[9] A rice seed obtained by surface treatment with iron powder and surface treatment or immersion treatment with a disease resistance inducing agent.

According to the present invention, it is possible to effectively control the rice blight during the growth period.

The method of the present invention includes a step of surface-treating rice seeds with iron powder before sowing, a step of surface-treating or immersing the seeds with a resistance-inducing agent, and then seeding the rice.

The disease resistance inducer used in the present invention refers to a drug having an action of inducing resistance of the plant itself to pathogens and inhibiting the disease. Examples of such a pathogen resistance inducer include isothianil, provenazole, And thiadinyl.

Probenazole and Tiadinil are all known compounds and are described, for example, in "The Pesticide Manual-15th edition (published by BCPC) ISBN 978-1-901396-18-8, page 927, 1134 Page. These compounds can be obtained from commercially available preparations or can be prepared by known methods.

Isotianil is a known compound, and it can be prepared, for example, by the method described in Japanese Patent No. 4088036. [

In the present invention, the pest resistance resistance inducing agent may be used as it is. Usually, the pest resistance resistance inducing agent and the inert carrier are mixed, and if necessary, a surfactant or other auxiliaries for formulation are added to the pest resistance, flowable agent, A wetting agent, a water-soluble agent, a granular water-soluble agent, and the like. It is also possible to use a preparation in which the dissolution of the disease resistance inducing agent is controlled.

Examples of the inert carrier used in the formulation include a solid carrier and a liquid carrier. Examples of the solid carrier include clay (kaolin clay, diatomaceous earth, bentonite, fusavami clay, acidic clay), synthetic hydrous silicon oxide, talc, ceramics and other inorganic minerals (sericite, quartz, Fine powders and granules such as activated carbon, calcium carbonate and hydrated silica, chemical fertilizers such as ammonium sulfate, ammonium phosphate, ammonium nitrate, urea and ammonium chloride, and synthetic resins such as polypropylene, polyacrylonitrile, Polyamide resin, polyvinyl chloride, polyvinylidene chloride, vinyl chloride-propylene copolymer, and the like) such as nylon-6, nylon-11 and nylon-66 .

Examples of the liquid carrier include water, alcohols (methanol, ethanol, isopropyl alcohol, butanol, hexanol, benzyl alcohol, ethylene glycol, propylene glycol and phenoxyethanol), ketones (acetone, methyl ethyl ketone, Aliphatic hydrocarbons such as hexane, cyclohexane, kerosene, light oil, etc.), esters (such as acetic acid, acetic acid and the like), aromatic hydrocarbons (toluene, xylene, ethylbenzene, dodecylbenzene, phenyl xylylethane, methylnaphthalene, (Acetonitrile, isobutylonitrile and the like), ethers (e.g., ethyl acetate, butyl acetate, isopropyl myristate, ethyl oleate, diisopropyl adipate, diisobutyl adipate and propylene glycol monomethyl ether acetate) (Diisopropyl ether, 1,4-dioxane, ethylene glycol dimethyl ether, diethylene glycol dimethyl ether, diethylene glycol monomethyl ether, propylene glycol monomethyl ether, (N, N-dimethylformamide, N, N-dimethylacetamide, etc.), halogenated hydrocarbons (dichloromethane, Trichloroethane, carbon tetrachloride, etc.), sulfoxides (dimethylsulfoxide, etc.), propylene carbonate, and vegetable oils (soybean oil, cottonseed oil and the like).

Examples of the surfactant include nonionic surfactants such as polyoxyethylene alkyl ether, polyoxyethylene alkylaryl ether and polyethylene glycol fatty acid ester, and anionic surfactants such as alkylsulfonate, alkylbenzenesulfonate and alkylsulfate. .

Specific examples of the adjuvant for formulation include adhesives such as fixing agents, dispersants, colorants and stabilizers such as casein, gelatin, saccharides (starch, gum arabic, cellulose derivatives, alginic acid etc.), lignin derivatives, bentonites, synthetic water- (2-tert-butyl-4-methylphenol), BHT (2-tert-butyl- A mixture of 3-tert-butyl-4-methoxyphenol) and the like.

Examples of the iron powder to be used in the present invention include reduced iron powder, atomized iron powder, electrolytic iron powder and iron oxide powder, and mixtures of two or more thereof may be used. In the present invention, it is preferable to use a reduced iron powder, a iron oxide powder or a mixture of reduced iron powder and iron oxide powder. More specifically, the iron powder obtained by reducing iron oxide or iron salt with hydrogen or the like and the iron powder obtained by spraying a high-pressure water jet of 8 to 20 MPa onto a stream of reduced iron powder and molten iron is used as a solution of iron oxide iron or iron sulfate To obtain an electrolytic iron flake. The iron powder obtained by milling and milling the electrolytic iron flake is called an electrolytic iron powder. The iron oxide powder is an oxide of iron having an oxidation number of II and / or III. The iron powder to be used in the present invention may be used in the form of powder, but it is preferable to use iron powder having a particle size of 10 to 100 탆. Such iron is available as a commercial product, and includes, for example, DSP317 iron (manufactured by DOWA IP) Creation Co., Ltd., agricultural iron (manufactured by Daitetsu Kogyo Co., Ltd.), agricultural iron (manufactured by TetsuGen Co., Ltd.) (DOWA IP (IP) Creation Co., Ltd.).

In the present invention, a calcined stone may be further used. Such calcined gypsum may be calcium sulfate · 1/2 hydrate (CaSO ₄ · 1/2 H ₂ O) in powder form, or a commercially available calcined gypsum may be used.

The present invention includes a step of surface-treating rice seeds with iron powder and a step of surface-treating or immersing the seeds with a resistance-inducing agent, either of which may be carried out first or simultaneously.

In the present invention, various methods can be employed for surface treatment of rice seeds with iron powder and surface treatment or immersion treatment with a disease resistance inducing agent. However, methods for surface treatment of rice seeds with iron powder are generally As a method for treating rice seeds with iron powder (powder coating), a known method ("Iron-coated freshwater direct response manual 2010", Independent Administrative Agency for Agriculture and Food Industry Technical Research Organization, March 2010, ISBN 978-4-903078 -05-2). Specifically, the dried rice seeds before germination are immersed in water, the water is removed, and the rice seeds are treated with iron powder and, if necessary, rice bran. In addition, usually, a small amount of calcined gypsum is used as finishing powder.

Examples of the method of surface-treating rice seeds with a resistance-inducing agent include treatment of a powder, spraying, and coating.

Herein, the term " minute " means that each of the components is attached to the surface in the state of powder.

More specifically, the dried rice seeds before germination are immersed in water, then stored in a net bag, and then suspended or provided with a dehydration operation using a dehydrator to remove excess moisture from the rice seed surface Thereafter, the rice seeds are put into a manual or automatic coating apparatus used for ordinary seed coating and rotated, and water is sprayed as necessary, and the iron resistance and the resistance inducing agent are mixed in advance with the calcination aid, if necessary Then, the mixture is treated with the mixture, followed by addition of a small amount of calcined gypsum. At this time, the iron powder and the resistance resistance inducing agent may be treated individually, or, in the case of using calcined iron, the powder may be treated with iron powder and calcined powder, followed by treatment with powder resistance inducing agent and calcined powder . In the case of treating rice seeds with a resistance-inducing agent as a blotting agent, it is preferable to use a pulverulent preparation such as a wettable powder containing a disease resistance inducing agent as an active ingredient, and a granulating agent or the like may be used as a powder. In addition, a spraying treatment or a coating treatment may be carried out using a water-diluting liquid of a disease resistance inducing agent or a flowable preparation containing a disease resistance inducing agent as an active ingredient, and then the solution may be dispersed into iron powder and, if necessary, The pest resistance resistance inducing agent may be mixed in advance, and the mixture liquid may be sprayed while spraying iron powder and, if necessary, calcined rock. In case of immersing the rice seeds with the resistance inducing agent, the dried rice seeds are immersed in the water dilution liquid of the resistance resistance inducing agent, and the rice seeds are treated with iron powder and, if necessary, rice seeds.

The rice seeds are treated with iron and a disease resistance inducing agent and, if necessary, further with calcined gypsum, and are usually placed on a mat on a flat surface and provided in a drying step such as shade.

By the above-described method, rice seeds obtained by surface treatment with iron powder and surface treatment or immersion treatment with a disease resistance inducing agent can be obtained. Further, in the present invention, it is preferable to treat rice seeds as iron resistance and resistance resistance inducing agent.

The amount of the iron powder and the resistance inducing agent to be used for rice seeds is usually 100 to 2000 grams of iron powder per 1000 grams of rice seeds, and the resistance resistance inducing agent is usually 0.2 to 400 grams. In addition, the amount of fossil for use in addition to calcined rice is usually 5 to 100 grams per 1,000 grams of rice seed, and the amount of calcined rice for finely divided rice is 1,000 grams of rice seed Typically 0 to 50 grams. When rice seeds are immersed in a water dilution solution of an aqueous or pest resistance-inducing agent, the weight of the rice seeds in a dry state before immersion is based on the weight.

The particle size of the iron powder and / or disease resistance inducing agent and, if necessary, the pulverulent product containing the calcined seeds used in treating the rice seeds are usually 10 to 150 mu m.

The rice seed thus prepared can be used for cultivation of rice by a conventional direct water-freshwater wave, and further, the effect of controlling rice disease disease during the growing period is obtained by sowing in the water supply. In this case, rice seeds are treated with the iron and the disease resistance inducing agent by the above-mentioned method, and the rice seeds are sown in a fresh water outlet or a water outlet which has been dripped.

Examples of diseases caused by the rice during the growing period which can be controlled by the method of the present invention include Magnaporthe grisea, Thanatephorus cucumeris, Cochliobolus miyabeanus, Xanthomonas campestris pv. oryzae and Gibberella fujikuroi.

In the method of the present invention, pesticides such as insecticides and herbicides used in the cultivation of rice can be used in combination. Examples of such pesticides include pesticides containing insecticidal active ingredients such as chlothianidine, cloranthraniliprole, cyanuranil leafrol, and spinetoram. Examples of such herbicides include pesticides such as Osakini (registered trademark) 1 kilogram granule (imazosulfurfuron.priminomethyl.mibromobutide) and Sunbird (registered trademark) granules (pyrazolate granule).

Example

Hereinafter, the present invention will be described in more detail with reference to formulation examples and test examples, but the present invention is not limited to the following examples. In the following examples, parts denote parts by weight unless otherwise specified.

First, a preparation example is shown.

Formulation Example 1

48 parts of provenazole, 2 parts of calcium ligninsulfonate, 20 parts of synthetic hydrated silicon oxide fine powder and 30 parts of diatomaceous earth are pulverized and mixed to obtain a wettable powder.

Formulation Example 2

30 parts of thiadinyl, 2 parts of calcium ligninsulfonate, 20 parts of synthetic hydrated silicon oxide fine powder and 48 parts of diatomaceous earth are pulverized and mixed to obtain a wettable powder.

Formulation Example 3

15 parts of isothiamine, 2 parts of calcium ligninsulfonate, 20 parts of synthetic hydrated silicon oxide fine powder and 63 parts of diatomaceous earth are pulverized and mixed to obtain a wettable powder.

Formulation Example 4

30 parts of provenazole, 30 parts of white carbon containing 50 parts of polyoxyethylene alkyl ether sulfate ammonium salt and 40 parts of water are mixed and finely pulverized by wet pulverization to obtain a flowable product.

Formulation Example 5

30 parts of thiazolidine, 30 parts of thiadinyl, 30 parts of white carbon containing 50 parts of polyoxyethylene alkyl ether sulfate ammonium salt and 40 parts of water are mixed and finely pulverized by a wet pulverization method to obtain a flowable agent.

Formulation Example 6

30 parts of white carbon containing 12 parts of isothianyl and 50 parts of polyoxyethylene alkyl ether sulfate ammonium salt, and 58 parts of water are mixed and finely pulverized by a wet pulverization method to obtain a flowable agent.

Next, a production example is shown.

Production Example 1

100 g of dried rice seeds (dry rice) were immersed in tap water for one day, and they were swirled vigorously in a net to remove water. The rice seeds were seeded in a polyethylene bag (length: 50 cm, width 22 cm, capacity 1 L) 50 g of reduced iron, 5 g of petroleum jelly, 9 ml of tap water and a predetermined amount of isothianyl were put thereinto, and the opening of the polyethylene bag was closed and vigorously shaken up and down and left and right. The rice seeds were spread on a plastic box (80 cm long x 20 cm wide x 18 cm high) so as to have a thickness of 1 cm or less and dried, (Hereinafter referred to as the rice seed (1) of the present invention) treated with the iron and the reduced iron powder was obtained.

Production Example 2

100 g of dried rice seeds (dry rice) were immersed in tap water for one day, and they were swirled vigorously in a net to remove water. The rice seeds were seeded in a polyethylene bag (length: 50 cm, width 22 cm, capacity 1 L) 50 g of reduced iron, 5 g of petroleum jelly, 9 ml of tap water and a predetermined amount of thiadinyl were put thereinto, and the opening of the polyethylene bag was closed and shaken vigorously up and down and right and left to treat the minute. Then, 2.5 g of calcined gypsum was added and treated for the same amount. The rice seeds were spread on a plastic box (80 cm long x 20 cm wide x 18 cm high) so as to have a thickness of 1 cm or less and dried, (Hereinafter referred to as " rice seed (2) of the present invention ").

Production Example 3

10 kg of dried rice seeds (dried rice) were placed in a net bag and immersed in a 20-fold dilution of Helsid (registered trademark) T Floable (a worm / peprazoate hydrating agent, manufactured by Hokko Chemical Industry Co., Ltd.) for 10 minutes After disinfection, it is immersed in tap water for 3 days. The rice seeds from which the water was removed were put into a coating machine and rotated while adding a powder mixture of 5 kg of reduced iron powder, 500 g of calcined iron, and 416 g of isothiocyanate wettable powder prepared in Preparation Example 3, in small amounts. Spray an appropriate amount of water and disperse the mixture in the total amount of the powder mixture. Thereafter, rice seeds are taken out from the coating machine, dispersed so as to have a thickness of 1 cm or less on the vinyl sheet, and then stopped to obtain rice seeds treated with isothianil and reduced iron powder.

Production Example 4

10 kg of dried rice seed (dried rice) is put into a net bag, disinfected at 60 ° C for 10 minutes, and then immersed in tap water for 3 days. The rice seed removed with water is put into a coating machine and rotated, while 3 kg of reduced iron and 300 g of calcined gypsum are added little by little. After spraying an appropriate amount of water to the total amount of the reduced iron powder and calcined gypsum, 150 g of the preliminarily mixed calcined stone and 416 g of the isothiocyanate wettable powder prepared in Preparation Example 3 were added little by little, and the mixture was dispensed in the same manner . Thereafter, rice seeds are taken out from the coating machine, dispersed so as to have a thickness of 1 cm or less on the vinyl sheet, and then stopped to obtain rice seeds treated with isothianil and reduced iron powder.

Production Example 5

10 kg of dried rice seeds (dried rice) were placed in a net bag and disinfected by immersing in a 50-fold diluted water solution of a Benate (registered trademark) wettable powder (Benomyl wetting agent, Sumitomo Chemical Co., Ltd.) for 10 minutes and then immersed in tap water for 3 days do. 6 kg of reduced iron and 600 g of calcined gypsum were added little by little while the rice seed removed from the coating machine was rotated while spraying a solution prepared by diluting 133 g of the isothiocyanate wettable agent prepared in Preparation Example 3 with an equal amount of water, Dissolve in reduced iron and calcined gypsum, and dissolve in 300 g of calcined gypsum. Thereafter, rice seeds are taken out from the coating machine, dispersed so as to have a thickness of 1 cm or less on the vinyl sheet, and then stopped to obtain rice seeds treated with isothianil and reduced iron powder.

Production Example 6

100 g of dried rice seeds (dry rice) were immersed in tap water for one day, and they were swirled vigorously in a net to remove water. The rice seeds were seeded in a polyethylene bag (length: 50 cm, width 22 cm, capacity 1 L) 50 g of iron oxide, 5 g of calcined gypsum, 9 ml of tap water and 0.3125 g of isothianyl are put thereinto, and the opening of the polyethylene bag is closed and vigorously shaken vertically and horizontally. The rice seeds were spread on a plastic box (80 cm long x 20 cm wide x 18 cm high) so as to have a thickness of 1 cm or less and dried, The rice seeds treated with aniline and atomized iron can be obtained.

Production Example 7

100 g of dried rice seeds (dry rice) were immersed in tap water for one day, and they were swirled vigorously in a net to remove water. The rice seeds were seeded in a polyethylene bag (length: 50 cm, width 22 cm, capacity 1 L) 50 g of iron oxide, 5 g of calcined gypsum, 9 ml of tap water and 10 g of thiadinyl are put thereinto, and the opening of the polyethylene bag is closed and shaken vigorously vertically and horizontally. Then, 2.5 g of calcined gypsum was added and treated for the same amount. The rice seeds were spread on a plastic box (80 cm long x 20 cm wide x 18 cm high) so as to have a thickness of 1 cm or less and dried, The rice seeds treated with the iron and atomized iron can be obtained.

Production Example 8

10 kg of dried rice seeds (dried rice) were placed in a net bag and immersed in a 20-fold dilution of Helsid (registered trademark) T Floable (a worm / peprazoate hydrating agent, manufactured by Hokko Chemical Industry Co., Ltd.) for 10 minutes After disinfection, it is immersed in tap water for 3 days. The rice seeds from which the water was removed were put into a coating machine and rotated while a powder mixture of 5 kg of agitated iron, 500 g of calcined gypsum and 416 g of isothiocyanate hydrate prepared in Preparation Example 3 was added little by little. Spray an appropriate amount of water and disperse the mixture in the total amount of the powder mixture. Thereafter, the rice seeds are taken out from the coating machine, dispersed so as to have a thickness of 1 cm or less on the vinyl sheet, and then stopped so that rice seeds treated with isothianil and atmaize iron can be obtained.

Production Example 9

10 kg of dried rice seed (dried rice) is put into a net bag, disinfected at 60 ° C for 10 minutes, and then immersed in tap water for 3 days. The rice seed removed from the water was put into a coating machine and rotated, while 3 kg of atomized iron and 300 g of calcined gypsum were added little by little. After spraying with an appropriate amount of water, the mixture was divided into total iron sulfate and calcined gypsum, and then a powder mixture of 150 g of the preliminarily mixed calcined and 416 g of the isothiazyl hydrate prepared in Preparation Example 3 was added little by little, And. Thereafter, the rice seeds are taken out from the coating machine, dispersed so as to have a thickness of 1 cm or less on the vinyl sheet, and then stopped so that rice seeds treated with isothianil and atmaize iron can be obtained.

Production Example 10

10 kg of dried rice seeds (dried rice) were placed in a net bag and disinfected by immersing in a 50-fold diluted water solution of a Benate (registered trademark) wettable powder (Benomyl wetting agent, Sumitomo Chemical Co., Ltd.) for 10 minutes and then immersed in tap water for 3 days do. 6 kg of iron oxide iron and 600 g of calcined gypsum were added little by little while the rice seed removed from the coating machine was rotated and sprayed with a solution prepared by diluting 133 g of the isothiocyanate hydrate prepared in Preparation Example 3 with an equal amount of water, After the mixture is diluted with iron oxide and calcined gypsum, 300 g of calcined gypsum is added in the same amount. Thereafter, the rice seeds are taken out from the coating machine, dispersed so as to have a thickness of 1 cm or less on the vinyl sheet, and then stopped so that rice seeds treated with isothianil and atmaize iron can be obtained.

Production Example 11

100 g of dried rice seeds (dry rice) were immersed in tap water for one day, and they were swirled vigorously in a net to remove water. The rice seeds were seeded in a polyethylene bag (length: 50 cm, width 22 cm, capacity 1 L) 50 g of electrolytic iron, 5 g of calcined gypsum, 9 ml of tap water and 0.3125 g of isothianyl are put thereinto, and the openings of the polyethylene bag are closed and vigorously shaken vertically and horizontally. The rice seeds were spread on a plastic box (80 cm long x 20 cm wide x 18 cm high) so as to have a thickness of 1 cm or less and dried, And rice seed treated with electrolytic iron powder can be obtained.

Production Example 12

100 g of dried rice seeds (dry rice) were immersed in tap water for one day, and they were swirled vigorously in a net to remove water. The rice seeds were seeded in a polyethylene bag (length: 50 cm, width 22 cm, capacity 1 L) 50 g of iron electrolytic solution, 5 g of calcined gypsum, 9 ml of tap water and 10 g of thiadinyl are put therein, and the opening of the polyethylene bag is closed and shaken vigorously vertically and horizontally. Then, 2.5 g of calcined gypsum was added and treated for the same amount. The rice seeds were spread on a plastic box (80 cm long x 20 cm wide x 18 cm high) so as to have a thickness of 1 cm or less and dried, Rice seed treated with Nil and electrolytic iron can be obtained.

Production Example 13

10 kg of dried rice seeds (dried rice) were placed in a net bag and immersed in a 20-fold dilution of Helsid (registered trademark) T Floable (a worm / peprazoate hydrating agent, manufactured by Hokko Chemical Industry Co., Ltd.) for 10 minutes After disinfection, it is immersed in tap water for 3 days. The rice seeds from which the water had been removed were put into a coating machine and rotated while adding a powder mixture of 5 kg of electrolytic iron preliminarily mixed, 500 g of calcined iron and 416 g of isothiocyanate wettability agent prepared in Preparation Example 3 in small amounts. Spray an appropriate amount of water and disperse the mixture in the total amount of the powder mixture. Thereafter, rice seeds are taken out from the coating machine, dispersed so as to have a thickness of 1 cm or less on the vinyl sheet, and then stopped to obtain rice seeds treated with isothianil and electrolytic iron powder.

Production Example 14

10 kg of dried rice seed (dried rice) is put into a net bag, disinfected at 60 ° C for 10 minutes, and then immersed in tap water for 3 days. The rice seeds from which moisture is removed are put into a coating machine and rotated, while 3 kg of electrolytic iron and 300 g of calcined gypsum are added little by little. An appropriate amount of water was sprayed, and the mixture was dispersed into a total amount of electrolytic iron powder and calcined gypsum. Thereafter, a powder mixture of 150 g of the preliminarily mixed calcined stone and 416 g of the isothiazyl hydrate prepared in Preparation Example 3 was added little by little . Thereafter, rice seeds are taken out from the coating machine, dispersed so as to have a thickness of 1 cm or less on the vinyl sheet, and then stopped to obtain rice seeds treated with isothianil and electrolytic iron powder.

Production Example 15

10 kg of dried rice seeds (dried rice) were placed in a net bag and disinfected by immersing in a 50-fold diluted water solution of a Benate (registered trademark) wettable powder (Benomyl wetting agent, Sumitomo Chemical Co., Ltd.) for 10 minutes and then immersed in tap water for 3 days do. 6 kg of electrolytic iron and 600 g of calcined gypsum were added little by little while the rice seed removed from the coating machine was rotated while spraying a solution prepared by diluting 133 g of the isothiocyanate wettable agent prepared in Preparation Example 3 with an equal amount of water, After finishing with electrolytic iron powder and calcined gypsum, we divide into 300 g of calcined stone equally. Thereafter, rice seeds are taken out from the coating machine, dispersed so as to have a thickness of 1 cm or less on the vinyl sheet, and then stopped to obtain rice seeds treated with isothianil and electrolytic iron powder.

Production Example 16

100 g of dried rice seeds (dry rice) were immersed in tap water for one day, and they were swirled vigorously in a net to remove water. The rice seeds were seeded in a polyethylene bag (length: 50 cm, width 22 cm, capacity 1 L) 50 g of iron oxide, 5 g of calcined gypsum, 9 ml of tap water and 0.3125 g of isothianyl are put thereinto, and the opening of the polyethylene bag is closed and vigorously shaken vertically and horizontally. The rice seeds were spread on a plastic box (80 cm long x 20 cm wide x 18 cm high) so as to have a thickness of 1 cm or less and dried, And rice seeds treated with iron oxide and iron oxide can be obtained.

Production Example 17

100 g of dried rice seeds (dry rice) were immersed in tap water for one day, and they were swirled vigorously in a net to remove water. The rice seeds were seeded in a polyethylene bag (length: 50 cm, width 22 cm, capacity 1 L) 50 g of iron oxide, 5 g of calcined gypsum, 9 ml of tap water, and 10 g of thiadinyl were added thereto, and the opening of the polyethylene bag was closed and vigorously shaken up and down and left and right. Then, 2.5 g of calcined gypsum was added and treated for the same amount. The rice seeds were spread on a plastic box (80 cm long x 20 cm wide x 18 cm high) so as to have a thickness of 1 cm or less and dried, And rice seeds treated with iron and iron oxide can be obtained.

Production Example 18

10 kg of dried rice seeds (dried rice) were placed in a net bag and immersed in a 20-fold dilution of Helsid (registered trademark) T Floable (a worm / peprazoate hydrating agent, manufactured by Hokko Chemical Industry Co., Ltd.) for 10 minutes After disinfection, it is immersed in tap water for 3 days. The rice seeds from which the water was removed were put into a coating machine and rotated while adding a powder mixture of 5 kg of pre-mixed iron oxide, 500 g of calcined gypsum and 416 g of isothiocyanate wettable powder prepared in Preparation Example 3 in small amounts. Spray an appropriate amount of water and disperse the mixture in the total amount of the powder mixture. Thereafter, the rice seeds are taken out from the coating machine, dispersed so as to have a thickness of 1 cm or less on the vinyl sheet, and then stopped to obtain rice seeds treated with isothianil and iron oxide.

Production Example 19

10 kg of dried rice seed (dried rice) is put into a net bag, disinfected at 60 ° C for 10 minutes, and then immersed in tap water for 3 days. The rice seeds from which moisture has been removed are put into a coating machine and rotated while adding 3 kg of iron oxide and 300 g of calcined gypsum. An appropriate amount of water was sprayed, and the mixture was dispersed in a total amount of iron oxide and calcined gypsum. Thereafter, a powder mixture of 150 g of the preliminarily mixed calcined and 416 g of the isothiazyl hydrate prepared in Preparation Example 3 was added little by little . Thereafter, the rice seeds are taken out from the coating machine, dispersed so as to have a thickness of 1 cm or less on the vinyl sheet, and then stopped to obtain rice seeds treated with isothianil and iron oxide.

Production example 20

10 kg of dried rice seeds (dried rice) were placed in a net bag and disinfected by immersing in a 50-fold diluted water solution of a Benate (registered trademark) wettable powder (Benomyl wetting agent, Sumitomo Chemical Co., Ltd.) for 10 minutes and then immersed in tap water for 3 days do. 6 kg of iron oxide and 600 g of calcined gypsum were added little by little while the rice seed removed from the coating machine was rotated and sprayed with a solution prepared by diluting 133 g of the isothiocyanate wettable powder prepared in Preparation Example 3 with an equal amount of water, Dissolve with iron oxide powder and calcined gypsum, and dissolve in 300 g of calcined gypsum. Thereafter, the rice seeds are taken out from the coating machine, dispersed so as to have a thickness of 1 cm or less on the vinyl sheet, and then stopped to obtain rice seeds treated with isothianil and iron oxide.

Reference Example 1

A rice seed treated with isothiazoline (hereinafter referred to as comparative rice seed (1)) was obtained by carrying out the same operation as in Production Example 1 except that reduced iron was not used.

Reference Example 2

The same operation as in Production Example 2 was carried out except that the reduced iron powder was not used to obtain seeds treated with thiadinylate (hereinafter referred to as comparative rice seeds (2)).

Reference Example 3

The same operation as in Production Example 1 was carried out except that isothianyl was not used, and rice seeds treated with reduced iron powder (hereinafter referred to as comparative rice seeds (3)) were obtained.

Test Example 1

10 seeds of each of the rice seeds (1) and (2) of the present invention were sown in a 1/5000 a Wagner pot filled with soil and harvested. In addition, comparative rice seeds (1), (2) and (3) were similarly sown.

After 60 days of sowing, blast fungus (1 × 10 ⁴ spoons / ㎖) was inoculated by spraying and each rice was infected with blast. This is regarded as a processing tool.

On the other hand, 10 rice seedlings which had not been treated with anything were used to infect the blast fungus after sowing in the same manner as the treatment. This is treated as a non-treatment area.

After 14 days of inoculation, the number of lesions of the blast in the treated and untreated areas was counted and the control value was calculated.

The results are shown in Table 1.

Controlling = 100 - A / B × 100

A: Number of lesions in the treatment area

B: Number of lesions in non-treatment area

Industrial availability

According to the present invention, it is possible to effectively control rice blight.

Claims (9)

A step of surface treating rice seeds with iron powder, a step of surface-treating or immersing the seeds with a resistance inducing agent, and a step of seeding the rice seeds. The method according to claim 1,
A method for controlling rice blight by using 100 to 2000 grams of iron powder and about 0.2 to 400 grams of a resistance inducing agent against 1000 grams of rice seeds. 3. The method according to claim 1 or 2,
Wherein the disease resistance inducing agent is isothianyl, provenazole or thiadinyl. 4. The method according to any one of claims 1 to 3,
The process
A step of surface-treating rice seeds with iron powder,
A step of surface treatment or immersion treatment of the rice seed treated with iron as a resistance inducing agent,
And a step of seeding rice seeds treated with iron powder and a disease resistance inducing agent. 4. The method according to any one of claims 1 to 3,
The process
A step of surface treatment or immersion treatment of rice seeds with a resistance inducing agent,
A step of surface treating rice seeds treated with a disease resistance inducing agent with iron powder,
And a step of seeding rice seeds treated with iron powder and a disease resistance inducing agent. 4. The method according to any one of claims 1 to 3,
The process
A step of simultaneously treating the rice seeds with an iron powder and a disease resistance inducing agent,
And a step of seeding rice seeds treated with iron powder and a disease resistance inducing agent. 7. The method according to any one of claims 1 to 6,
Wherein the iron is iron oxide. Iron seeds and rice seeds treated with an agent for inducing disease resistance are sowed. Rice seeds surface-treated with iron powder and surface treated or immersed with a disease-resistance inducing agent.