JP2005281195A - Plant growth promoter, method for culturing plant and method for promoting growth of plant - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a plant growth promoter having growth promoting effect not smaller than a certain growth promoting effect when used in production sites of actual farm products and excellent in safety and convenience, and to provide a method for promoting the growth of plants. <P>SOLUTION: The plant growth promoter comprises soybean whey and a microorganism of the genus Bacillus. The method for promoting the growth of plants comprises applying the soybean whey and the microorganism of the genus Bacillus to plants. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a plant growth promoter, soybean cultivation method, and plant growth promotion method using soybean whey and Bacillus genus microorganisms.

  In the past, chemical pesticides and chemical fertilizers have been used to promote plant growth and increase crop yields. However, in recent years, the use of these chemical substances has caused environmental pollution problems, and the deterioration of the soil has caused an increase in the yield of crops, which has become a wide social problem. In addition, as interest in the safety of crops increases, the demand for crops by so-called pesticide-free or organic farming has increased.

In such a social background, methods of promoting plant growth and increasing the yield of crops using plant extracts, low molecular weight peptides or microorganisms have been studied. , Phytosulfokine, soybean proteolysate, Bacillus bacteria, rhizobia and Azospirillum genus, simultaneous use of rhizobia and azospirillum have been reported (for example, Non-Patent Documents 1 to 3) reference).
However, in the methods described in Non-Patent Documents 1 to 3, there are some methods that can be expected to have a certain effect, but many of them are very expensive and have not yet been used in actual agricultural production sites. .

In addition, a method for promoting the growth of plants using microorganisms has been proposed.
For example, Patent Document 1 discloses that a culture of a Bacillus microorganism is used as a plant growth promoter. The patent document discloses that the growth promoter disclosed in the publication promotes the growth of plants and increases the yield of crops. However, since the microorganisms disclosed in the patent document are very expensive, the culture cannot be used in production sites for actual crops that are produced in large quantities such as radish and Japanese mustard. .

  Patent Document 2 discloses a novel Bacillus microorganism that produces a special proteolytic enzyme, using a mixed solution of soybean meal and water to lower the molecular weight of the protein in the solution, and the resulting degradation. It is disclosed that a product is diluted with water to a concentration of 10% and used as a plant growth fertilizer. The patent document discloses that the fertilizer disclosed in the publication is effective as a plant growth fertilizer. However, the method disclosed in the patent document does not use the original effect of microorganisms, and the growth promotion action is not always appropriate because the comparative control of the examples is not appropriate. Is hard to say. In addition, since the process of lowering the molecular weight of a protein affects the growth effect of plants, it is very difficult to maintain the plant growth promotion effect above a certain level at the actual production site of agricultural products. It has become a thing.

  Therefore, in the use of actual agricultural products for mass production in production sites, while ensuring a certain level of plant growth promotion effect, there is no hassle, it is safe, it can be used for various crops, and it is large and inexpensive. An available plant growth promoter and a plant growth promotion method have been desired.

JP-A-10-276579 JP 2002-362988 Moawad, H. et al., Biol. Fertil. Soils, 6,174-177 (1988) Singh, C. S. et al., Plant Soil, 53, 387 (1979) Bashan, Y. et al., Soil Biol. Biochem, 18, 297-301 (1986)

  An object of the present invention is to provide a plant growth promoting agent having a plant growth promoting effect of a certain level or more in use in an actual agricultural production site, and having excellent safety and convenience, and a plant growth promoting method. And Another object of the present invention is to provide a plant growth promoter excellent in practicality that can be supplied in large quantities at a low cost, and a plant growth promotion method.

  In order to achieve the above-mentioned object, the present inventors have conducted extensive research, and as a result, the plant growth promotion effect of the microorganism is enhanced by using soybean whey and a Bacillus microorganism together with the plant body. The headline and the present invention were completed. In addition, from the above findings, the present inventors can realize a growth promoter and a growth promotion method capable of exerting a growth promoting action on plants in a large amount more practically and cheaper than previously known. The present invention has been completed.

That is, the present invention provides a plant growth promoter containing soybean whey and Bacillus microorganisms.
Moreover, this invention provides the cultivation method of the plant characterized by applying the said growth promoter to a plant.
Moreover, this invention provides the cultivation method of the plant characterized by applying soybean whey and Bacillus microbe to a plant.
The present invention also provides a method for promoting plant growth, which comprises applying the above growth promoter to a plant.
The present invention also provides a plant growth promotion method characterized by applying soybean whey and Bacillus microorganisms to plants.

  INDUSTRIAL APPLICABILITY According to the present invention, there is provided a plant growth promoter having a growth promoting effect as compared with the case where a Bacillus microorganism alone is applied to a plant. Further, according to the present invention, there is provided a plant growth promoter, a plant cultivation method and a plant growth promotion method which have a growth promotion effect on a certain number of plants and have safety and convenience, and which are excellent in practicality. Provided. Furthermore, the present invention provides a plant growth promoter and a plant growth promotion method excellent in practicality that can be supplied in large quantities at low cost.

Hereinafter, the plant growth promoter of the present invention will be described first.
The plant growth promoter of the present invention contains soybean whey and Bacillus microorganisms.
The soybean whey used in the present invention is a general term for components other than the protein fraction produced in the process of producing protein from defatted soybean.
Extraction (squeezing) of soybean oil from soybean is conventionally known, and a residue obtained by extracting (squeezing) soybean oil from soybean is usually called defatted soybean or soybean meal. The defatted soybean can be obtained, for example, by pressing the soybean with a roller, extracting the oil using excess hexane, and then heating under reduced pressure to remove hexane. As these defatted soybeans, those that are usually used can be used, and in general, water 10% by mass, crude protein 45% by mass, lipid 1.5% by mass, crude fiber and crude ash content 5% by mass, Although it has a composition of 30% by mass of soluble nitrogen-free substances (carbohydrate), it is not particularly limited to the above composition. Moreover, the nitrogen solubility coefficient (NSI) of defatted soybean is generally 5 to 90, and this can also be used in the present invention.

These defatted soybeans are further extracted by an appropriate extraction process, divided into soybean protein and other parts, and used for different purposes. Parts other than soy protein are generally called soy whey. As the soybean whey used in the present invention, those obtained by these usual steps can be used, and the composition thereof is not particularly limited. The composition of soybean whey includes, for example, 10% by mass of protein, 10% by mass of carbohydrate, 29% by mass of ash, and 1% by mass of lipid in the dried product.
In addition, the dried product of soybean whey means a product that has been subjected to a normal drying process when producing soy whey, and specifically, a product that has been subjected to a process such as natural drying, freeze drying, or spray drying. Say. The water content of the soybean whey thus obtained is usually 10% by mass or less.

  As a method for obtaining soybean whey used in the present invention, it is possible to use a product obtained by a known method such as an extraction method using an aqueous acid solution from defatted soybean, a hydrous alcohol extraction method, or a method of acid precipitation after water extraction. Yes, it is not limited to any one.

An example of a method for obtaining soybean whey will be described. For example, soybean whey can be obtained by the following method.
First, soybean seed coats and germs are removed and pressed, and then degreased to obtain germ-removed defatted soybeans. Next, this is subjected to an extraction operation with an acidic aqueous solution adjusted to about pH 4.3, divided into a solid part and a liquid part, and the liquid part is washed and dried to obtain soybean whey. Also, adjust the pH of the soy protein extract obtained by extracting the defatted defatted soybean with water or an alkaline aqueous solution to around 4.3, separate and remove the precipitated protein, and wash and dry the resulting liquid part. Soy soy whey can be obtained.

An example of a preferred method for producing soybean whey used in the present invention is a method using an aqueous alcohol solution. Soybean whey uses an aqueous alcohol solution from defatted soybeans to precipitate proteins that are insoluble parts by known methods (immersion, flushing, etc.), and after separating and removing the proteins that are insoluble parts, the alcohol in the liquid part is distilled. It can obtain by isolate | separating by. The extraction process for defatted soybean is usually preferably performed a plurality of times in order to increase the yield of protein insoluble in an alcohol aqueous solution.
Furthermore, the obtained soybean whey can be dried by natural drying, freeze drying, spray dryer, etc., to be in a powder state, which facilitates mixing with Bacillus microorganisms, and further provides practical use such as storage stability. Also improves.

As the alcohol used in the extraction step, methanol, ethanol, and isopropanol are generally used, but ethanol is preferably used from the viewpoint of food production and handling.
The alcohol used in the extraction step is preferably diluted with water and used as an aqueous alcohol solution. As the alcohol concentration of the alcohol aqueous solution, a commonly used concentration can be used, preferably an alcohol aqueous solution having an alcohol concentration of 40 to 90% by mass, more preferably 50 to 80% by mass. An alcohol aqueous solution is used.
In the present specification, “alcohol aqueous solution” is synonymous with “hydrous alcohol” or “hydrous alcohol solution”, and these terms are generally used. For example, 50-80 mass% alcohol aqueous solution means that 50-80 mass% hydrous alcohol or 50-80 mass% hydroalcoholic aqueous solution is the same thing.
In the aqueous alcohol solution, for example, when ethanol is used as the alcohol, it is expressed as an aqueous ethanol solution.

The Bacillus microorganism used in the present invention can be used without particular limitation as long as it is a Bacillus microorganism having an action of promoting the growth of plants. As the microorganisms belonging to the genus Bacillus, Bacillus subtilis and Bacillus pumilus are preferably used.
Here, the growth-promoting action (effect) on the plant includes all actions that broadly increase the growth speed of the plant or increase the body weight of the plant, as will be clarified in the examples below. It does not mean only specific growth promoting activity by plant hormones.
More specifically, for example, after applying the plant growth promoter according to the present invention, the plant growth rate at a certain cultivation time point is increased, and the plant size and body weight increase at the cultivation time point, When such a plant growth promoter is applied, it means that the time taken for the plant to reach a certain size is shorter than when it is not applied.

  As a representative and most preferable example of the microorganism belonging to the genus Bacillus that can be used in the present invention, Bacillus subtilis FERM BP-3418 can be mentioned. Bacillus subtilis FERM BP-3418 was established on May 21, 1991 at the Institute of Biotechnology, Institute of Industrial Science, Ministry of International Trade and Industry. No. (FERMBP-3418) has been deposited internationally under the Budapest Treaty (see Japanese Patent No. 3040234). Moreover, as Bacillus subtilis FERM BP-3418, what is marketed can be used, and as such a commercial item, "Bact clear FM" (made by AHC Co., Ltd.) can be used. ).

  As the Bacillus microorganism used in the present invention, a cultured microorganism is used, and the culture can be performed by solid culture or liquid culture according to a commonly used growth method of Bacillus microorganism. Among these, it is preferable to carry out by liquid culture from the viewpoint of ease of treatment after culture. In addition, the culture medium components used for the culture, the culture conditions, and the like can be appropriately set in consideration of the final dosage form in consideration of a known method.

  In addition, Bacillus spp. Are known to form spores that are more resistant to various physical and chemical sensitization than vegetative cells under certain conditions (Ozaki Manabu, Sakazaki Toshio). 1 volume, "Livestock Microbiology", 3rd edition, pages 19-21, 1987). In the present invention, the Bacillus microorganism to be used may be a vegetative cell state, a spore state, or a mixture thereof. it can. However, in order to avoid a decrease in the number of bacteria in the preparation due to storage, it is more preferable to use a large number of spores. Moreover, in order to increase the ratio of the number of spores to the number of vegetative cells, a method of heat-treating the collected culture solution or the cells obtained by washing at a temperature of 70 to 80 ° C. for a longer culture time than usual. In the present invention, it is possible to obtain a culture containing a large amount of bacterial cells in the state of spores.

  The Bacillus microorganism used in the present invention means not only the cells of the Bacillus microorganism, but also the culture supernatant thereof, or both of them. The culture supernatant is a part obtained by removing the cells from the whole obtained as a result of the culture, and contains a metabolic product of the cells.

  The culture obtained by culturing (in the present invention, the cells of the Bacillus microorganism or the culture supernatant, or both thereof) is used as it is or after separating the cells and the culture supernatant from the present invention. It can be used as a constituent of the growth promoter. For example, the culture solution obtained by liquid culture may be used as it is as a culture containing both the cells of the Bacillus microorganism and the culture supernatant. For example, centrifugation and washing with water, physiological saline, etc. By repeating the above or separating by means such as filtration, only the cells or only the culture supernatant can be used as a constituent of the plant growth promoter of the present invention. Furthermore, the culture of Bacillus microorganisms can be made into a dry powder state by using natural drying, freeze drying, spray dryer or the like.

The ratio of soybean whey and Bacillus microorganisms contained in the plant growth promoter of the present invention is not particularly limited. The ratio of soy whey to Bacillus microorganisms in this plant growth promoter is, for example, preferably 5 × 10 ⁵ Bacillus microorganisms or more, more preferably 5 to 1 g of dry weight of soybean whey. × 10 ⁷ or more, more preferably 1 × 10 ⁹ or more, and most preferably 5 × 10 ⁹ or more.
The dry mass of soybean whey means the mass of the product dried by the usual drying process when producing soy whey, for example, natural drying, freeze drying, spray drying, etc. Means the mass of 10% by mass or less.

The number of cells of the genus Bacillus can be measured by a general method. An example of such a method is a dilution plate method.
The dilution plate method will be described. In the dilution plate method, a certain amount of a sample containing bacterial cells to be measured is weighed, and about 6 to 7 specimens with different dilution ratios that are considered suitable for measurement are prepared. A certain amount of the sample is spread evenly on the medium in the sterile petri dish. The petri dish is allowed to stand in an incubator at an appropriate temperature for 1-2 days, and the number of colonies in the petri dish in which about 100 colonies are generated is counted in the petri dish coated with samples with different dilution ratios. This is a method of calculating the number of bacterial cells in the initial sample by multiplying the dilution rate.
Therefore, the number unit (pieces) of microorganisms in the present invention means cfu units (colony forming units).

  The content of soybean whey contained in the plant growth promoter of the present invention is not particularly limited as long as the ratio between the soybean whey and the Bacillus microorganism in the plant growth promoter is satisfied.

The existence state of soybean whey and Bacillus microorganisms in the plant growth promoter of the present invention may be any of an aqueous solution state, a dry powder state, and a dry solid state. In any state of existence, the effect is not changed, but in view of storage stability and the like, a dry powder state is preferable in practice.
As the plant growth promoter of the present invention, a solid one can be used, for example, a powdery one. A powdery material is preferable because, for example, it becomes easy to increase the solubility when dissolved in water. In addition, a powdered material is preferable because it can be evenly dispersed when it is applied to the soil. The solid state means that it is not at least liquid or semi-liquid. These solid shapes are not particularly limited, and examples thereof include block shapes and granular shapes.
In addition, powder form shall mean a powder-like thing and water content is not ask | required.

  The plant growth promoter of the present invention can be used in a plant cultivation method and a plant growth promotion method described later. When the growth promoter of the present invention is in a powder form, it may be used by dissolving or suspending in water, or may be sprayed or the like as it is. Moreover, when using a solid thing, it can form and use for example in the form of a tablet, for example, it can also be used in the state as it is, but it is used, for example, dissolved or suspended in water. You can also.

  Examples of plants to which the plant growth promoter of the present invention is applied include cruciferous plants such as Chingensai, Komatsuna and Chinese cabbage, eggplants such as tomatoes and eggplants, cucurbits such as cucumbers and melons, and red foxes such as spinach. Examples include, but are not limited to, asteraceae plants such as family plants, lettuce and sengiku, and gramineous plants such as shiba and rice.

The plant growth promoter of the present invention exerts a growth promoting action when used on a fertilized plant body, and the effect thereof has an action of promoting the growth more than in the case of single fertilization. . More specifically, the growth promoting action when the growth promoter of the present invention is used for a fertilized plant body is to increase the growth rate of the plant at a certain cultivation point after application, and the plant at the cultivation point. It means an action showing an increase in the size or body weight of a plant.
In the present invention, the effect of promoting the growth of the fertilized plant in combination with soybean whey and Bacillus microorganisms compared to the time of single fertilization is achieved by the use of only soybean whey and Bacillus microorganisms. It does not show the effect instead. These effects are exhibited by applying fertilizer to plants. Therefore, the above-mentioned effect is not exhibited even when only the plant growth promoter of the present invention is applied to the plant without fertilization.

Next, the plant cultivation method and the plant growth promotion method of the present invention will be described.
The plant cultivation method and plant growth promotion method of the present invention (hereinafter referred to as "plant growth promotion method" includes plant cultivation methods) include applying soybean whey and Bacillus microorganisms to plants. It is characterized by.
The plant growth promotion method of the present invention is characterized in that soybean whey and Bacillus microorganisms are applied to plants. As the soybean whey and Bacillus microorganism used in the plant growth promoting method of the present invention, those contained in the above-described plant growth promoting agent of the present invention can be used.
In the plant growth promotion method of the present invention, it is preferably applied such that the number of Bacillus microorganisms is 5 × 10 ⁵ or more, more preferably 5 × 10 ⁷ or more, per 1 g of dry weight of soybean whey. More preferably, it is 1 × 10 ⁹ or more, and most preferably 5 × 10 ⁹ or more. By applying so that the number of Bacillus microorganisms is 5 × 10 ⁵ or more per 1 g of dry weight of soybean whey, the plant growth promoting effect is sufficiently exerted.

  In the plant growth promotion method of the present invention, the application rate of soybean whey and Bacillus microorganisms to the plant is not particularly limited as long as the ratio of the soybean whey and Bacillus microorganisms described above is satisfied.

In the plant growth promotion method of the present invention, the method for applying soybean whey and Bacillus microorganisms to plants is not particularly limited, but for example, a method of mixing with plant cultivated soil, or spraying on the surface of cultivated soil Method of irrigating cultivated soil, method of mixing in cultivation water, method of coating seeds, method of injecting into plants such as stems and roots, method of applying to the cut surface of tubers, method of adding to artificial medium, The method etc. which are spread | dispersed to a plant body are mentioned.
When carrying out the plant growth promotion method of the present invention, it is not possible to define the total amount or concentration of microorganisms in the spray solution or cultivated soil containing soybean whey and Bacillus microorganisms.
The growth promoting effect in the plant growth promoting method of the present invention cannot be exerted unless a certain amount of microorganisms acts on the plant. This is because the administration method, the target plant, the number of administrations, the administration concentration, the soil In consideration of various factors such as the amount, it can be appropriately prepared by those skilled in the art, and it is difficult to define them in a general manner.
For example, when cultivating radish and Japanese mustard, the amount of microorganisms is 2.5 × 10 ⁴ , as will be apparent in Examples described later, when sprayed on cultivated soil or sprayed on leaf surfaces. It turns out that an effect is exhibited by using 10 ml of an aqueous solution / ml and administering this once a week and continuing this 4 times.
When applied, soybean whey and Bacillus microorganisms may be in the form of powder or solids, and solids include those in the form of tablets. Further, powdered and solid materials can be used by dissolving or suspending them in water.

  In the plant growth promotion method of the present invention, soybean whey and Bacillus microorganisms may be applied to a plant at the same time, or one of them may be applied and the other may be applied after a certain time has elapsed. When not applying at the same time and applying the other after a certain time has elapsed, either one may be applied first, and after applying either soybean whey or Bacillus microorganisms, the other is applied after a certain time has elapsed. That's fine. In addition, fixed time means applying within 48 hours. When applied over 48 hours, the plant growth promoting effect may be reduced.

As a method of applying after a certain time has elapsed, for example, a method of mixing soybean whey with soil, sown in advance, and spraying a Bacillus microorganism or a culture solution thereof at an appropriate time, etc. Although it takes time and effort at the time of application, it may be effective because the effects of the present invention can be exhibited without making a mixture of soybean whey and Bacillus microorganisms.
In the plant growth promotion method of the present invention, it is preferable to apply soybean whey and a Bacillus microorganism simultaneously. By applying at the same time, the plant growth promoting effect can be maximized. When soybean whey and Bacillus microorganisms are applied simultaneously, the above-described plant growth promoter of the present invention can be used.

  The plant growth promotion method of the present invention exhibits an effect of promoting the growth of plants when soybean whey and Bacillus microorganisms are applied to the plant, and the effect is to promote the growth more than when fertilized alone. It is what has. More specifically, the growth promoting effect when soybean whey and Bacillus microorganisms are applied to a plant means that the plant growth rate at a certain cultivation point is increased after application, and the size and body of the plant plant at that cultivation point. An increase in weight. In the method for promoting the growth of plants according to the present invention, the effect of further promoting the growth of fertilized plants by combining soybean whey and Bacillus sp. The use of only does not demonstrate the effect of fertilization. These effects are exhibited by applying fertilizer to plants. Therefore, when fertilizer is not applied, the above effect is not achieved.

  As the fertilizer used when applying the plant growth promotion method of the present invention, organic fertilizers, chemical fertilizers, etc. are usually used, but in addition to these, fertilizer components such as so-called soil conditioner and compost are included. Anything can be used and is not limited to any one.

  Hereinafter, the present invention will be described in more detail with reference to examples. Needless to say, the scope of the present invention is not limited to such examples. In the following examples, parts and% represent parts by mass or mass% unless otherwise specified.

Bacillus subtilis BP-3418 strain, IFO-3009 strain, IFO-3013 strain, and Bacillus pumilus IFO-3814 strain are referred to as BP-3418 strain and IFO-3009 strain in the following description. , IFO-3013 strain and IFO-3813 strain.
The BP-3418 strain used was a commercially available “Bact Clear FM” (manufactured by AHC Co., Ltd.), and the other strains used were those produced at AHC Research Institute. . In addition, the said strain was a powder form and those water content was 1-3%.
The number unit of microorganisms indicates cfu unit below. cfu means a colony forming unit and is a value counted by a dilution plate method.

Example 1
The production of defatted soybean was performed as follows.
1.5 kg of whole soybeans was crushed with a roller, and the oil was extracted using 10 L of excess n-hexane. Subsequently, it heated at 50-60 degreeC under pressure reduction conditions, n-hexane was removed, and about 1 kg of defatted soybeans (NSI: about 80) was obtained.
Next, 1 kg of the defatted soybean obtained as described above was mixed with 6 L of a 60% aqueous ethanol solution, stirred and extracted at a temperature of 60 ° C. for 1 hour, solid-liquid separation was performed by centrifugation, and the ethanol extract and the solid were removed. Separated into minutes. 6 L of 60% ethanol aqueous solution was added to this solid content, the same extraction operation was repeated, and the obtained ethanol extract was combined with the previous extract to obtain about 11 L of ethanol extract. The obtained ethanol extract was concentrated under reduced pressure to remove ethanol to obtain 1.2 L of soybean whey. The obtained soybean whey was spray-dried to obtain 220 g of powdered soybean whey. The moisture content of the obtained soybean whey was 4-6%.

Example 2
About 0.5 × 10 ⁵ , 2.5 × 10 ⁷ , 2.5 × 10 ⁹ , 2.5 × 10 ¹¹ BP-3418 strains are contained in 0.5 g of lactose powder. 1 was mixed with 0.5 g of soybean whey obtained in 1 to obtain a plant growth promoter. The obtained plant growth promoters were designated as formulations A1 to A4, respectively. The number of BP-3418 strains (per 1 g of soybean whey) contained in the preparations A1 to A4 is 5 × 10 ⁵ , 5 × 10 ⁷ , 5 × 10 ⁹ , and 5 × 10 ¹¹ , respectively. In addition, preparations containing about 2.5 × 10 ⁵ , 2.5 × 10 ⁷ , 2.5 × 10 ⁹ , 2.5 × 10 ¹¹ BP-3418 strains in 1 g of lactose powder were prepared. Were designated as preparations B1 to B4.

  Rapeseed manure fertilizer (trade name: “fermented oil cake” (component composition is N: P: K = 3: 7: 4), Nisshin Oilio Co., Ltd.) Prepare 18 pieces of soil prepared in No. 4 pot, containing 20% of radish seeds in each pot. I asked one by one. A solution prepared by dissolving 1 g of each of preparations A1 to A4 and preparations B1 to B4 in 10 ml of purified water was placed on each pot once every week (16 pots in total). For the remaining 2 pots, only water was used as a control. After growing 20 days of radish for 4 weeks (ie, spraying the preparation 4 times), the average fresh weight (including roots) per 20 days of radish in each group was determined. The results are shown in Table 1.

As can be seen from Table 1, when only Bacillus microorganisms were applied, it was found that there was an effect of promoting the growth of radish for 20 days than the control.
Further, when a plant growth promoter containing soybean whey and Bacillus microorganisms is applied, the amount of Bacillus microorganisms applied is 5 × 10 ^{5 to} 5 × 10 ¹¹ per 1 g of soybean whey. It can be seen that the effect of promoting the growth of radish was improved even when only Bacillus microorganisms were applied.
Moreover, it turns out from the said result that the plant growth promoter of this invention has an effect which accelerates | stimulates the growth of a plant by spraying on the surface of soil.

Example 3
The test was conducted in the same manner as in Example 2 using komatsuna instead of radish. The results are shown in Table 2.

As is apparent from Table 2, when only Bacillus microorganisms are applied, it is found that there is an effect of promoting the growth of Komatsuna than the control.
Further, when a plant growth promoter containing soybean whey and Bacillus microorganisms is applied, the amount of Bacillus microorganisms applied is 5 × 10 ^{5 to} 5 × 10 ¹¹ per 1 g of soybean whey. It can be seen that the effect of promoting the growth of Komatsuna is improved as compared with the case where only Bacillus microorganisms are applied.

Example 4
The plant growth promoting effects of various mixtures of Bacillus microorganisms (BP-3418 strain, IFO-3009 strain, IFO-3013 strain, and IFO-3813 strain) and soybean whey were examined.
About 2.5 × 10 ⁷ BP-3418 strain, IFO-3009 strain, IFO-3013 strain, and IFO-3813 strain were contained in 0.5 g of lactose powder, and each of the soybeans obtained in Example 1 Mixed with 0.5 g of whey, a plant growth promoter was obtained. The obtained plant growth promoters were designated as formulations A2, C, D and E, respectively. The number of Bacillus microorganisms (per 1 g of soybean whey) contained in each preparation is 5 × 10 ⁷ . In addition, preparations containing about 2.5 × 10 ⁷ BP-3418 strain, IFO-3009 strain, IFO-3013 strain, and IFO-3813 strain in 1 g of lactose powder were prepared. G and H.
The obtained preparation was tested in the same manner as in Example 1. The results are shown in Table 3.

  As apparent from Table 3, when only Bacillus microorganisms were applied, an effect of slightly promoting the growth of radish was observed compared to the control. In addition, when soy whey and Bacillus microorganisms are applied, any of the four Bacillus microorganisms used has an effect of promoting the growth of radish for 20 days than when only Bacillus microorganisms are applied. It can be seen that it has improved.

Example 5
The alcohol concentration at the time of soybean whey extraction was changed and the plant growth promotion effect by the obtained soybean whey was investigated.
1 kg of the defatted soybean obtained in Example 1 was mixed with 6 L of 40, 50, 60, 70, 80 and 90% ethanol aqueous solution, extracted with stirring at a temperature of 60 ° C. for 1 hour, and solid-liquid separation was performed by centrifugation. And separated into ethanol extract and solids. 6L of 40, 50, 60, 70, 80 and 90% ethanol aqueous solution was added to this solid content, and the same extraction operation was repeated. The obtained ethanol extract was combined with the previous extract to obtain about 11 L of ethanol extract. Got. The obtained ethanol extract was concentrated under reduced pressure to remove ethanol to obtain 1.2 L of soybean whey. The obtained soybean whey was spray dried to obtain 181 g, 201 g, 225 g, 214 g, 195 g and 161 g of powdered soybean whey.

About 0.5 × 10 ⁷ BP-3418 strains are contained in 0.5 g of lactose powder, and each is mixed with 0.5 g of soybean whey obtained as described above, and a plant growth promoter is added. Obtained. The obtained plant growth promoters were designated as Formulations I, J, K, L, M and N, respectively. The number of BP-3418 strain (per 1 g soybean whey) contained in each preparation is 5 × 10 ⁷ .
The obtained preparation was tested in the same manner as in Example 1. The results are shown in Table 4.

  As shown in Table 4, even at all alcohol concentrations, when the obtained soybean whey and Bacillus microorganisms were applied to plants, a growth promoting effect was observed, but in particular, extraction with a 50 to 80% ethanol solution may occur. The effect was remarkable.

Example 6
The test was conducted in the same manner as in Example 1 except that the spraying of the preparation on the upper surface of the soil was replaced with a method of spraying the leaf surface with a spray. The results are shown in Table 5.

As is clear from Table 5, it can be seen that when only Bacillus microorganisms are applied, there is an effect of promoting the growth of the plant than the control.
In addition, when applied by spraying soybean whey and Bacillus microorganisms on the leaf surface, the application amount of Bacillus microorganisms in the range of 5 × 10 ^{5 to} 5 × 10 ¹¹ per 1 g of soybean whey, It can be seen that the effect of promoting the growth of radish is improved compared to the case where only the Bacillus microorganism is applied. From this result, the plant growth promoter of the present invention can also be sprayed on the leaf surface. It was found that the plant growth promoting effect was exhibited.

Example 7
The test was conducted in the same manner as in Example 6 except that komatsuna was used instead of the radish. The results are shown in Table 6.

As is apparent from Table 6, when only the Bacillus microorganism is applied, it can be seen that there is an effect of promoting the growth of the plant than the control.
In addition, when applied by spraying soybean whey and Bacillus microorganisms on the leaf surface, the application amount of Bacillus microorganisms in the range of 5 × 10 ^{5 to} 5 × 10 ¹¹ per 1 g of soybean whey, It can be seen that there is an effect of promoting the growth of Komatsuna compared to the case where only Bacillus microorganisms are applied.

Example 8
About 5 × 10 ¹⁰ BP-3418 strains were contained in 0.5 g of lactose powder and mixed with 0.5 g of the soybean whey obtained in Example 1 to obtain a plant growth promoter. The number of BP-3418 strains (per 1 g of soybean whey) contained in this plant growth promoter is 1 × 10 ¹¹ . Next, the plant growth promoter is diluted with purified water, and uniformly dispersed in a mixture of red clay, vermiculite and bentonite in a ratio of 10: 10: 1, and the mixture is stirred and granulated. After that, drying was performed by applying warm air to obtain an inorganic granule having a concentration of about 1 × 10 ⁸ BP-3418 strain / 1 g of inorganic granule. This is formulation O. Further, in lactose powder 1g, to obtain an inorganic granules of the BP-3418 strain of about 1 × 10 ⁸ cells / inorganic granules 1g. This is designated Formulation P.

After uniformly applying 20 kg of commercially available chemical fertilizer to a 50 m ² field (specific gravity of soil: 0.5), 2.5 kg of Formulation O is sprayed on 1/3 (about 16.7 m ² ) (whey). The other 1/3 is sprayed with 2.5 kg of preparation P (lactose block), and the other 1/3 is sprayed with 1.25 kg of red clay and 1.25 kg of vermiculite (control group). After plowing all the plots at a depth of about 10 cm, 65 ml of spinach seeds were uniformly sown in each plot.
Therefore, the concentration of the BP-3418 strain in the whey and lactose sections is about 3 × 10 ⁵ cells / g soil.

After the elapse of 4 months, the longest leaf length and the number of expanded leaves for each spinach strain were measured for an area of 1 m ² × 3 (total 3 m ² ) extracted from each section, and the average value was obtained. Further, the total weight of the above-ground spinach per 1 m ^{2 of the} same location was weighed to determine the average yield. The results are shown in Table 7.

As is clear from Table 7, the growth-promoting effect was slightly observed in the test group using lactose compared to the target group. In the whey section, the growth promoting effect was greater than when lactose was used alone.
From this result, it can be seen that the plant growth promoter of the present invention has an effect of promoting the growth of plants by being mixed with soil.

Claims (17)

A plant growth promoter containing soybean whey and Bacillus microorganisms. The plant growth promoter according to claim 1, wherein the soybean whey is extracted from defatted soybean using a 50 to 80 mass% aqueous ethanol solution. The plant growth promoter according to claim 1 or 2, wherein the microorganism belonging to the genus Bacillus is Bacillus subtilis or Bacillus pumilus. The plant growth promoter according to claim 1 or 2, wherein the Bacillus microorganism is Bacillus subtilis FERM BP-3418. The blending ratio of soybean whey and Bacillus microorganisms is 5 x 10 ⁵ or more of Bacillus microorganisms per 1 g of dry weight of soybean whey. Growth promoter. A plant cultivation method comprising applying the plant growth promoter according to any one of claims 1 to 5 to a plant. A plant cultivation method comprising applying soybean whey and Bacillus microorganisms to a plant. The cultivation method of the plant of Claim 7 whose soybean whey is extracted from defatted soybean using 50-80 mass% ethanol aqueous solution. The plant cultivation method according to claim 7 or 8, wherein the Bacillus microorganism is Bacillus subtilis or Bacillus pumilus. The cultivation method of the plant of Claim 7 or 8 whose Bacillus microbe is Bacillus subtilis FERM BP-3418 strain | stump | stock. The plant according to any one of claims 7 to 10, wherein the soybean whey and the Bacillus microorganism are applied so that the Bacillus microorganism is 5 × 10 ⁵ or more per 1 g of the dry weight of soybean whey. Cultivation method. A plant growth promoting method, comprising applying the plant growth promoting agent according to any one of claims 1 to 5 to a plant. A plant growth promoting method comprising applying soybean whey and Bacillus microorganisms to a plant. The method for promoting plant growth according to claim 13, wherein the soybean whey is extracted from defatted soybean using an aqueous ethanol solution of 50 to 80% by mass. The plant growth promoting method according to claim 13 or 14, wherein the microorganism belonging to the genus Bacillus is Bacillus subtilis or Bacillus pumilus. The method for promoting plant growth according to claim 13 or 14, wherein the microorganism belonging to the genus Bacillus is Bacillus subtilis FERM BP-3418. The plant according to any one of claims 13 to 16, wherein the soybean whey and the Bacillus microorganism are applied so that the number of Bacillus microorganisms is 5 x 10 ⁵ or more per 1 g of the dry weight of soybean whey. How to promote growth.