JP2013009622A - Coating seed and method of manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a coating seed on surface of which a coating agent is formed by coating, which has surface hardness preferable for mechanical seeding, and has excellent disintegration in fluid after being seeded.SOLUTION: The coating seed uses bentonite having a specific grain size as a coating material, and forms 0.1-5 mm of the coating layer on the seed surface. Specifically, the distribution of the grain diameter of ≥1 μm and <10 μm accounts for 20-30%, the distribution of the grain size of ≥10 μm and <50 μm accounts for 60-70%, the distribution of ≥50 μm and <100 μm accounts for 0-20%.

Description

  The present invention relates to a coated seed that can save sowing work and contribute to an improvement in the vegetation fixation rate of germinated seeds, and a method for producing the same.

In industrial fields that use plant seeds, such as agriculture, landscaping, and vegetation conversion in weedlands, coated seeds that can save seeds and save labor and become more efficient are becoming increasingly important. It is coming.
As such coated seeds, conventionally known seeds having a plant seed as a core material and a surface coated with a coating material are known, and such coated seeds can only greatly reduce the damage caused by insects and birds. In addition, it is known that plant seeds can be protected from climatic changes and chemical damage caused by temporary chemical spraying, and the germination rate is improved.

Various coating materials for coating plant seeds have been conventionally known. Examples thereof include inorganic compound powders represented by silica, talc, kaolinite, diatomaceous earth, calcium carbonate, iron powder, and the like. .
These inorganic compounds are usually attached to the surface of plant seeds as a coating material composition mixed with water-soluble binders such as starch, gelatin, polyvinyl alcohol, and polyvinylpyrrolidone, and water to form a coating layer. It is also known that a bactericidal agent or the like is separately added to the coating material for the purpose of preventing damage caused by disease-causing bacteria attached to the seeds.

  Patent Documents 1 to 5 below disclose conventional coated seeds and methods for producing them. These all use seed as a core material and coat various coating materials on the surface thereof.

Conventional coated seeds are granulated to a weight that is easy to sow because the coating material is attached to the periphery of the seed, but the coating material is attached to the periphery of the seed core material to form a coating layer. Seeds may have problems with germination performance and subsequent colonization of germinating plants.
Factors that deteriorate the germination performance include that the hardness required for seeding required for the coated seed on which the coating layer is formed and the disintegration property of the coating material after sowing are not appropriate.

  That is, with conventional coating materials, the seed hardness is insufficient, and when the sowing machine is used, the coated seeds are often crushed, or the hardness is too high and the germination rate becomes poor. There was also.

Japanese Patent Laid-Open No. 05-192011 Japanese Patent Laid-Open No. 05-015208 Japanese Patent Laid-Open No. 11-004606 JP 2005-097309 A JP 2005-192458 A

  An object of the present invention is to provide a coated seed excellent in mechanical sowing property, germination performance and vegetation fixing property after germination, and a method for producing the same.

  In order to solve the above problems, the present inventors have intensively studied, and as a coating material for coating plant seeds, selected as a main component is bentonite, which is a clay mineral, and coating seeds obtained by coating to a specific thickness. In consideration of surface hardness and disintegration, the range of the optimum particle size distribution is specified, and preferably, by adding a plant growth regulator to the coating material mainly composed of bentonite, germination performance and vegetation fixation after germination can be achieved. It has been found that excellent coated seeds can be obtained.

  That is, the present invention is represented as follows.

  A first invention is a coating comprising a plant seed as a core material, and a coating layer having a thickness of 0.1 mm to 5 mm made of a coating material containing bentonite as a main component around the seed. The seed is coated with such a coating layer, so that the seed surface hardness at the time of sowing can be ensured, and appropriate disintegration is obtained by contact with moisture after sowing, and germination of the target plant seed Is done well.

  A second invention is the coated seed according to the first invention, wherein the coating layer contains a plant growth regulator component.

  A third invention uses an inclined rotating pan, throws plant seeds as a core material into an inclined processed surface, then feeds a coating material mainly composed of bentonite, and forms a coating layer on the surface of the target seeds. It is a method for producing a coated seed, comprising a step of repeating the forming operation a plurality of times and granulating.

  A fourth invention is the method for producing a coated seed according to the third invention, wherein the coating material has a granular shape and the particle size distribution is in the range of 1 μm to 100 μm.

In a fifth invention, the particle size distribution of the coating material is
Distribution rate 20-30% with a particle size of 1 μm or more and less than 10 μm,
Distribution rate 60 to 70% with a particle size of 10 μm or more and less than 50 μm,
Distribution ratio 0 to 20% with a particle size of 50 μm or more and less than 100 μm,
This is a method for producing a coated seed according to the third or fourth invention.

  That is, by selecting a specific particle size distribution of bentonite, which is the main component of the coating material, the obtained coated seeds can ensure the surface hardness necessary for mechanical sowing and come into contact with moisture after sowing. As a result, it was found that moderate disintegration was obtained, and germination of the target plant was successfully achieved.

  In addition, the plant growth regulator is contained in the coating material containing bentonite as a main component, and the plant growth regulator component is eluted from the coating material by contact with moisture after sowing, and this reaches the target plant seeds. It was found that germination performance and vegetation fixation after germination were improved.

The coated seeds of the present invention are excellent in mechanical sowing properties by selecting bentonite, which is a clay mineral, as a coating material as a main component, and specifying a particle size range for optimizing coating seed surface hardness and disintegration. And it is excellent in germination performance and vegetation fixing property after germination.
Further, the particle size of bentonite is 20-30% when the particle size is 1 μm or more but less than 10 μm, 60-70% when it is 10 μm or more but less than 50 μm, and 0-20% when it is 50 μm or more but less than 100 μm. Can be optimized and germination performance is improved.
This is due to the unique properties of bentonite. Due to its thickening and binding properties, good coating surface hardness can be obtained by mixing with a small amount of moisture in the coating of plant seeds, and sowing due to its swelling property. When the subsequent coated seed comes into contact with a large amount of moisture, the coating material is broken, and the plant seed can be respired and germinated.
Further, by adding a plant growth regulator to the bentonite-based coating material, the plant growth regulator component is eluted from the coating material by contacting with moisture after sowing, and this reaches the target plant seed. This improves the germination performance and the vegetation fixation after germination.

  Hereinafter, the present invention will be described in detail.

First, the coated seed of the present invention will be described.
The coated seed of the present invention is characterized in that a coating layer having a thickness of 0.1 mm to 5 mm is formed of a coating material mainly composed of bentonite, which is a clay mineral, with a plant seed as a core material. It is a coated seed.

[Plant seeds]
The plant seeds that can be used for the coated seeds of the present invention are not particularly limited, and include the following vegetable seeds and turf seeds.
Vegetable seeds: Brassicaceae such as radish, Chinese cabbage, turnip and cabbage, green beans, white clover, red clover, hairy vetch, alfalfa, crimson clover, bird's foot trefoil, lotus and other legumes, asteraceae, carrot, asparagus, etc. Can be mentioned.
Turf Seeds: Fescue such as tall fescue, chewing fescue, ryegrass such as perennial ryegrass, Bermudagrass, centipeatgrass, wild buckwheat, bentgrass, bluegrass, other carpet grass, bahiagrass, rosegrass, cormorant Examples include weeping love glass and daikandora.

[Coating material]
The coating material used in the present invention is mainly composed of bentonite, which is a clay mineral.
The bentonite preferably has a particle size distribution in the range of 1 to 100 μm.
Preferably,
Distribution ratio of particle size of 1 μm or more and less than 10 μm is 20% to 30%,
Distribution ratio of particle size of 10 μm or more and less than 50 μm is 60 to 70%,
The distribution ratio of the particle size of 50 μm or more and less than 100 μm is 0 to 20%.
By using bentonite having the above particle size distribution, a coated seed having excellent germination rate and good vegetation fixing rate after germination can be obtained.

  The coated seed of the present invention is not destroyed at the time of mechanical sowing because a layer having a thickness of 0.1 mm to 5 mm made of the above-mentioned coating material containing bentonite as a main component is formed around the seed used as the core material. It has a seed surface hardness and is excellent in germination performance and vegetation fixation after sowing.

[Plant growth regulator]
Examples of plant growth regulators that can be used for the coated seeds of the present invention include auxin, gibberellin, cytokinin, and ethylene. Gibberellin is particularly preferred.

Next, the manufacturing method of the coated seed of this invention is demonstrated.
When manufacturing coated seeds, the coated surface is sprinkled with the coating material after wetting the seed surface after wetting the seed surface, using the movement of the target plant seeds to be granulated rolling down the slanted surface using an inclined rotating pan. The target coating layer is formed by repeating the above operation.
As a result of extensive investigation of inorganic and organic coating materials, the present inventors have selected a coating material mainly composed of bentonite to ensure strength that is not destroyed during mechanical sowing, and sowing the resulting coated seeds. In some cases, it was found that it gradually disintegrated and was excellent in germination performance and vegetation fixing ability.

The method for producing the coated seeds can be performed using the inclined rotating pan, and at this time, it can be efficiently performed by appropriately adding a dispersant and a binder component. A well-known thing can be used as a dispersing agent, Diethylene glycol, a triethanolamine, a calcium stearate etc. can be used. As the binder component, polyvinyl alcohol, polyvinyl pyrrolidone, carboxymethyl cellulose, sodium silicate, or the like can be used.
The bentonite used preferably has a particle size distribution of 1 μm or more and less than 100 μm by a sieve or a classifier. In particular, the coating hardness and the disintegration property after sowing can be further optimized by setting 20 to 30% for 10 μm to less than 10 μm and 60 to 70% for 10 μm to less than 50 μm, and 0 to 20% for 50 μm to less than 100 μm. Performance is improved. At this time, when the particle size distribution of 1 μm or more and less than 10 μm is less than 20%, the disintegration property of the coating after sowing is inferior, so that the germination performance is deteriorated, and when it exceeds 30%, the required surface hardness cannot be obtained. Further, even when the particles having a diameter of 50 μm or more and less than 100 μm exceed 20%, the required surface hardness cannot be obtained.
Furthermore, by impregnating the coating material with the above plant growth regulator, germination performance after sowing and vegetation fixation after germination can be greatly enhanced. As an impregnation method, it may be contained in bentonite in advance or may be added during the coating operation.
By drying the seed on which the coating layer obtained in the above step is formed, the coated seed of the present invention can be obtained.

Example 1
Commercially available bentonite powder (manufactured by Hojun Co., Ltd., product name: Fuji) was classified using a classifier (manufactured by Nisshin Flour Milling Co., Ltd., product name: turbo classifier) to obtain a powder having a particle size distribution shown in Table 1. As a plant growth regulator, 50 g of gibberellin (manufactured by Kyowa Hakko Bio Co., Ltd.) 300 ppm solution was blended with 1000 g of this bentonite powder, and 100 g of calcium stearate powder (manufactured by Shinagawa Chemical Co., Ltd.) was blended to prepare a coating material composition. The entire amount of the prepared coating base material was coated on 350 g of Western turf tall fescue seeds using a rotary pan type coating machine, and dried in a 40 ° C. dry atmosphere. As for the strength of the coating, a seeding operation was performed using a seeder, and it was confirmed whether or not the coated seed morphology could be maintained.
Table 2 shows the results of investigating the disintegration property, germination test, and vegetation establishment rate.

Examples 2-5
Each bentonite powder having the particle size distribution shown in Table 1 was used in the same manner as in Example 1, and the coating process was performed in the same manner as in Example 1 to obtain each coated seed. Table 2 shows the results.

Comparative Example 1
Using commercially available attapulgite powder (FLORIDIN Inc. Minugel AR), classification was performed in the same manner as in Example 1 to obtain a powder having a particle size distribution shown in Table 1. Coating material blending, coating operation and evaluation were carried out in the same manner as in Example 1 to obtain coated seeds. The results are shown in Table 2.

Comparative Example 2
A classification operation was performed in the same manner as in Example 1 using commercially available silica powder (manufactured by Mikawa Silica Co., Ltd., No. ML8) to obtain a powder having a particle size distribution shown in Table 1. A coating substrate was blended. In the coating operation, 70 g of a 7% aqueous solution of carboxymethyl cellulose (Sellogen 7A manufactured by Daiichi Kogyo Seiyaku Co., Ltd.) was used as a binder. Evaluation was performed in the same manner as in Example 1, and the results are shown in Table 2.

◎：優、○：良、△：やや不良、×：不良

◎: Excellent, ○: Good, △: Somewhat bad, ×: Bad

Mechanical sowing intensity: After seeding with a sowing machine, observe the collapsed state of the coated seeds.
A: Collapse 1% or less, B: Collapse 1% to 10%, B: Collapse 10% to 50%,
X: Disintegration 50% or more Disintegration property: Seeded and sprinkled with coated seeds on the surface of the culture soil, and observed the disintegration state after 3 weeks.
A: Collapse 90% or more, B: Collapse 60% to 90%, B: Collapse 30% to 60%,
×: Decay 30% or less Vegetation fixability: 3000 seeds per 1 m ^{2 of} seeds were sown on the surface of the culture degree, and vegetation fixation status after 60 days was evaluated by vegetation coverage while raising watering.
◎ ... 90% or more of coating, ○ ... 60% to 90% of coating, △ ... 30% to 60% of coating,
×: Covering 30% or less

Claims (5)

  A coated seed comprising a plant seed as a core material, and a coating layer having a thickness of 0.1 mm to 5 mm made of a coating material containing bentonite as a main component around the seed.   The coated seed according to claim 1, wherein a plant growth regulator component is contained in the coating layer.   Using an inclined rotating pan, plant seeds that serve as the core material are introduced into the inclined processed surface, and then a coating material mainly composed of bentonite is introduced, and an operation for forming a coating layer on the target seed surface is performed a plurality of times. A method for producing a coated seed comprising the step of granulating repeatedly. The coating material is granular,
The method for producing a coated seed according to claim 3, wherein the particle size distribution is in the range of 1 μm to 100 μm. The particle size distribution of the coating material is
Distribution ratio 20% to 30% with a particle size of 1 μm or more and less than 10 μm,
Distribution ratio 60% to 70% with a particle size of 10 μm or more and less than 50 μm,
Distribution rate 0% to 20% with a particle size of 50 μm or more and less than 100 μm,
The method for producing a coated seed according to claim 3 or 4, wherein: