JP6824519B2 - Soybean black root rot control agent, microbial material for suppressing soybean black root rot, and soybean black root rot control method - Google Patents

Description

The present invention particularly relates to a soybean black root rot control agent, a microbial material for suppressing soybean black root rot, and a soybean black root rot control method.

In recent years, conversion from rice cultivation to upland cultivation has been popular, and among them, soybean (soybean) is cultivated most as a conversion crop.
However, soybeans may suffer from continuous cropping problems if the same crop is continuously cultivated in the same field. Continuous cropping disorders include (1) increased density of pathogens in the soil, which makes it easier for diseases to occur, (2) biased soil nutrients and decreased soil fertility, resulting in stunted growth, and (3) more weeds and pests. It is an obstacle in the field. When continuous cropping failure occurs, adverse effects such as yield reduction and quality deterioration occur, and soybean productivity is significantly reduced, which is a big problem.

As such a continuous cropping disorder, soybean black root rot is a disease that causes particularly serious damage. Soybean black root rot is a soil-borne disease caused by infection with Calonectoria icicola (hereinafter referred to as "Soybean black root rot"), which is a filamentous fungus belonging to the family Hypocreaceae, Hypocreaceae. is there. In soybean black root rot, the roots begin to rot from the latter half of soybean growth, the number of pods is reduced, the grain is immature, and the plant may die.
Although this soybean black root rot is widespread in Japan in general, especially in the Tohoku and Hokuriku regions, no control method has been established so far.

Here, as a conventional control technique for soybean black root rot, referring to Patent Document 1, a microorganism belonging to the genus Trichoderma having an ability to control black root rot in a plant is contained as an active ingredient, and the black root rot in a plant is contained. The control composition is disclosed.

Japanese Unexamined Patent Publication No. 2006-151898

As described above, the conventional commercially available pesticides (bactericides) effective against soybean black root rot fungi have not been sufficiently effective.
The microorganism of Patent Document 1 also did not function depending on the field conditions and the like, and the effect was not sufficient.
Therefore, a more effective control technique for soybean black root rot has been required.

The present invention has been made in view of such a situation, and an object of the present invention is to solve the above-mentioned problems.

Soybean Kurone rot control agent of the present invention contains an active ingredient derived from Bacillus (Bacillus) bacteria, wherein the Bacillus bacterium, produces an alkaline substance, possess the ability to basify the medium, the Bacillus The bacterium belongs to any combination including APU-W01 strain (NITE P-02337), APU-O02 strain (NITE P-02338), APU-T03 strain (NITE P-02354), and any combination thereof. characterized in that there.
The soybean black root rot control agent of the present invention is characterized in that the Bacillus bacterium is isolated from selected dried chicken manure.
The microbial material for suppressing soybean black root rot of the present invention contains a Bacillus bacterium having an ability to produce an alkaline substance and alkalinize a medium, and the Bacillus bacterium is an APU-W01 strain (NITE). P-02337), APU-O02 strain (NITE P-02338), APU-T03 strain (NITE P-02354), and any combination thereof .
The method for controlling soybean black root rot of the present invention cultivates Bacillus bacteria having the ability to produce an alkaline substance and alkalinize the medium, and the culture solution alone, or a porous material and / or an organic material. The Bacillus bacterium was mixed with APU-W01 strain (NITE P-02337), APU-O02 strain (NITE P-02338), APU-T03 strain (NITE P-02354), and It is characterized in that it is an arbitrary combination including any of the mutant strains .

According to the present invention, soybean black root capable of effectively controlling soybean black root rot by containing an active ingredient derived from a bacterium belonging to the genus Bacillus, which produces an alkaline substance and has an ability to alkalinize a medium. A rot control agent can be provided.

It is a photograph which shows the example of the suppression effect test of the sample which concerns on Example of this invention. It is a photograph which shows the isolated microorganism which concerns on Example of this invention. It is an optical micrograph of the isolated microorganism (3 strains) which concerns on Example of this invention. It is a phylogenetic tree of the isolated microorganisms (3 strains) according to the examples of the present invention. It is a photograph which shows the result of the small-scale cultivation test which concerns on Example of this invention. It is a photograph which shows the result (aboveground part) of the field cultivation test which concerns on Example of this invention. It is a photograph which shows the result (root) of the field cultivation test which concerns on Example of this invention.

<Embodiment>
As described in the background technology described above, soybean black root rot has spread in the Tohoku and Hokuriku regions and has become a major problem in Japan, but so far there have been no sufficiently effective countermeasures.
Here, soybean black root rot increases in number when soybeans are continuously cultivated. On the other hand, the present inventors have searched for a field where soybeans have been cultivated for 25 years or more and have less disease, and found that a special chicken manure material is applied to this field. Then, the present inventors repeated diligent studies and experiments, and isolated Bacillus bacteria that remarkably suppress the growth of black root rot bacteria from the chicken manure material, and completed the present invention.

The soybean black root rot to be controlled according to the embodiment of the present invention is a soil-borne disease caused by infection with soybean black root rot fungus.
This soybean black root rot may be caused by continuous cropping of soybean or may be caused by other conditions.
The target of the control agent for soybean black root rot of the present embodiment may be a disease caused by infection with a pathogenic bacterium similar to soybean black root rot. It may also be a similar disease of plants other than soybean.

In addition, the soybean black root rot control agent according to the embodiment of the present invention is characterized by containing an active ingredient derived from a bacterium of the genus Bacillus.
In addition, the bacterium of the genus Bacillus of the present embodiment is a gram-positive eubacteria classified into the phylum Firmicutes, Bacillus, Bacillus, and Bacillus, and is a bacillus. The bacterium of the genus Bacillus of the present embodiment is not particularly limited in terms of species, lineage, etc., but is a bacterium closely related to Bacillus subtilis and Bacillus amyloiquefaciens. An advanced control effect on soybean black root rot can be expected.

Further, the bacterium of the genus Bacillus according to the embodiment of the present invention is characterized by producing an alkaline substance and alkalizing the medium.
The Bacillus bacterium of the present embodiment changes the medium to alkaline when cultured by adding a pH indicator such as a bromothymol blue (BTB) solution. That is, the Bacillus bacterium of the present embodiment produces an alkaline substance and alkalizes the medium. In the case of an agar medium, this alkaline substance accumulates in the periphery of the colony like a transparent thin film, and has an effect of atrophying hyphae of soybean black root rot fungus, thereby exhibiting an excellent control effect.
Here, soybean black root rot fungus produces an acidic substance and grows by extending hyphae while acidifying the surrounding environment. Since most domestic soybeans are cultivated in acidic soil, it is an environment in which soybean black root rot fungi can easily grow, and the acidic substances of soybean black root rot fungi can reduce the defense ability of soybeans against bacteria. There is also sex. On the other hand, the alkaline substance of the Bacillus bacterium of the present embodiment has the effect of suppressing the growth of soybean black root rot fungus and enhancing the defense ability of soybean itself against soybean black root rot fungus because it neutralizes this acidic substance. Can also be expected.
Bacillus natto, which is a kind of ordinary Bacillus subtilis, does not produce such an alkaline substance and does not change the medium to alkaline. Therefore, the property of producing an alkaline substance, such as the Bacillus bacterium of the present embodiment, is an index for distinguishing the Bacillus bacterium for controlling soybean black root rot among those skilled in the art.

In addition, the Bacillus bacterium according to the embodiment of the present invention is a Bacillus bacterium isolated from selected dried chicken manure.
As the bacterium of the genus Bacillus of the present embodiment, a special dried chicken manure used in a soybean field having no continuous cropping disorder as described above was selected, and the bacterium was isolated from the selected dried chicken manure. Is. Specifically, the Bacillus bacterium of the present embodiment is a sterilized or untreated sample with soybean black root rot fungus collected from the soybean black root rot disease group portion adjusted to pH 6.5, as shown in Examples described later. (Confrontation culture, 35 ° C., 5 days culture) were cultivated side by side, and the microorganisms generated in the medium of the sample in which the inhibitory effect on soybean black root rot fungus was observed were isolated. The inhibitory effect of this microorganism on soybean black root rot fungus was examined by confronting culture as in the case of isolation (25 ° C., 5 days). That is, the bacterium of the genus Bacillus according to the embodiment of the present invention is characterized in that it is selected from a special dried chicken manure having an inhibitory effect on soybean black root rot.
By isolating the excellent bacteria from chicken manure in this way, it becomes easy to use as the soybean black root rot control agent, the microbial material, and the soybean black root rot control of the present embodiment, and a stable effect can be expected.
In addition, ordinary general dried chicken manure and fermented chicken manure used by those skilled in the art do not have the effect of suppressing the onset of soybean black root rot.

In addition, the Bacillus bacterium according to the embodiment of the present invention is characterized in that it can grow from pH 4 to pH 9 in a general medium.
The Bacillus bacterium of the present embodiment is moderately acidic to weakly alkaline on a plate of, for example, a potato glucose agar medium (hereinafter referred to as "PDA medium"), which is common to those skilled in the art. It can be cultivated and grown from pH 4 to pH 9. This PDA medium is composed of, for example, 1 L of medium containing 4 g of potato extract, 15 to 30 g of glucose, and 15 to 20 g of agar.
In addition, the Bacillus bacterium of the present embodiment may be a general medium such as potato sucrose agar medium (PSA medium), LB medium, YM agar medium, which is common to those skilled in the art, under the same pH conditions. It may be cultured.
Further, as will be described later, even a liquid medium containing no agar can be cultured.
In addition, the Bacillus bacterium of the present embodiment can be inoculated into a solid medium such as various organic substances and cultured under appropriate conditions. The various organic substances may be soybeans, okara, cornmeal, straw, wheat bran, nuka, oatmeal, food residues, and other organic substances for rolling seeds that are common to those skilled in the art.

The Bacillus bacterium according to the embodiment of the present invention includes APU-W01 strain (NITE P- 02337), APU-O02 strain (NITE P- 02338), APU-T03 strain (NITE P- 02354), and the like. It is characterized by being any combination including any of the mutant strains.
The present inventors have investigated in detail, Bacillus bacterium of the present embodiment, Bacillus subtilis (Bacillus subtilis), Bacillus amyloliquefaciens (Bacillus amylo l iquefaciens) a bacterium closely related, to produce an alkaline substance There was a feature.
The APU-W01 strain and APU-O02 strain thus obtained were deposited on August 25, 2016, and the APU-T03 strain was deposited on September 21, 2016 by the National Institute of Technology and Evaluation Patent Microorganisms. It has been deposited at the Center and the accession numbers are NITE P- 02337, NITE P- 02338, and NITE P- 02354, respectively.
The Bacillus bacterium of the present embodiment is a bacterium of these APU-W01 strain, APU-O02 strain, and APU-T03 strain when used as a soybean black root rot control agent, a microbial material, and a soybean black root rot control method. It can be used in any combination including any of the above or any of its variants. That is, one of the APU-W01 strain, the APU-O02 strain, the APU-T03 strain, and a mutant strain thereof, any combination, or all of them may be used in a mixed state.

Further, as the Bacillus bacterium according to the embodiment of the present invention, a mutagenesis-treated mutant strain of APU-W01 strain, APU-O02 strain, and APU-T03 strain can also be used. The mutagen-inducing treatment for producing this mutant strain can be appropriately performed using a mutagen common to those skilled in the art. Here, the "mutagen" includes, for example, a drug having various mutation effects such as damaging DNA or the like or inhibiting DNA replication or repair, and treatment by UV irradiation, various irradiations, and the like. As this agent, for example, chemical substances common to those skilled in the art such as ethyl methanesulfonate, UV irradiation, N-methyl-N'-nitro-N-nitrosoguanidine, and bromouracil can be used.

In addition, the soybean black root rot control agent according to the embodiment of the present invention is characterized by containing an active ingredient derived from the Bacillus bacterium of the present embodiment.
As the soybean black root rot control agent of the present embodiment, it is also possible to use the above-mentioned liquid culture of the Bacillus bacterium of the present embodiment as an active ingredient as it is. That is, the soybean black root rot control agent of the present embodiment may be a microbial material containing the Bacillus bacterium of the present embodiment. In this case, the Bacillus bacterium of the present embodiment may use the above-mentioned culture as it is, use a concentrate obtained by separating and concentrating the Bacillus bacterium, or use a dried product obtained by drying this concentrate. You may use it. At this time, as a method for producing the concentrate, a general method such as filtration or centrifugation can be used. In addition, the method for drying the liquid culture of Bacillus bacterium of the present embodiment includes natural drying, low temperature drying, freeze drying, vacuum drying, etc., which enables storage in a state in which general Bacillus bacteria are alive. Any drying method can be used. In this case, a spore-dried Bacillus bacterium of the present embodiment can be spray-dried, or a carrier-adsorbed bacterium can also be used. After the dried product is dried, it may be further pulverized with a mill or the like.

Further, as the soybean black root rot control agent of the present embodiment, a liquid culture in which the Bacillus bacterium of the present embodiment is liquid-cultured, or a concentrated product thereof is combined with an organic or inorganic solid carrier or an auxiliary agent as appropriate. It can also be processed and used. In this case, as the solid carrier of the organic substance, for example, celluloses, okara, chitin, rice bran, food residue and the like may be used. Further, as the carrier of the inorganic substance, for example, activated carbon powder, pearlite, vermiculite, bentonite, diatomaceous earth, talc and the like may be used. Further, as an auxiliary agent, for example, a fixing agent such as gelatin, gum arabic, sugar, gellan gum or the like or a thickener may be added. Other organic substances and inorganic substances may be appropriately blended.
Further, as the soybean black root rot control agent of the present embodiment, the culture of Bacillus bacterium of the present embodiment is combined with other components in the form of powder, wettable powder, emulsion, liquid, coating agent or the like. , It is also possible to process it into a microbial material and provide it.
In addition, as the processing of the soybean black root rot control agent of the present embodiment, it is combined with organic substances such as various soils, wood pieces, wheat grains, sugar cane pomace, brewed waste, okara, rice bran, fish meal, various composts, and food residues. It can also be used in the form of compost-like material.

Further, as the soybean black root rot control agent of the present embodiment, it is also possible to use a solid culture obtained by inoculating a solid medium with the Bacillus genus bacterium of the present embodiment and culturing it. Also in this case, it is possible to use it by combining an organic or inorganic solid carrier or an auxiliary agent, or by appropriately processing it.

Further, as the soybean black root rot control agent according to the embodiment of the present invention, it is also possible to use the alkaline substance produced by the Bacillus bacterium of the present embodiment as the active ingredient. In this case, the Bacillus bacterium of the present embodiment may be mass-cultured in a bioreactor or the like to extract this alkaline substance. This alkaline substance can also be used by combining an organic or inorganic solid carrier or an auxiliary agent, or by appropriately processing the substance. In addition, the soybean black root rot control agent according to the embodiment of the present invention may be provided in the form of a microbial material or a compost-like material containing this alkaline substance. The composition of this alkaline substance may be analyzed by general mass spectrometry, chromatographic analysis, or the like for chemical synthesis. It is also possible to synthesize it with another bacterium transformed with a vector or the like containing a gene that produces this alkaline substance, and provide this as an active ingredient as a soybean black root rot control agent of the present embodiment.
In addition, these cultures of Bacillus bacteria, liquid cultures, solid cultures, and alkaline substances can be used alone or in combination as the active ingredient of the soybean black root rot control agent of the present embodiment. ..

Further, in the method for controlling soybean black root rot according to the embodiment of the present invention, Bacillus bacteria are cultivated, and the culture solution alone or mixed with a porous material and / or an organic material is used in the soil. It is characterized by being applied. That is, in the soybean black root rot control method of the present embodiment, the above-mentioned soybean black root rot control agent is applied to soil.
Specifically, in the method for controlling soybean black root rot of the present embodiment, for example, a large amount of Bacillus bacteria of the present embodiment is liquid-cultured, and this culture solution alone is used as a soybean black root rot control agent before soybean cultivation. Spray on soil and cultivate. Further, for example, the liquid culture solution of the Bacillus genus bacterium of the present embodiment is mixed with a porous material and / or an organic material, and this mixture is applied to the soil before soybean cultivation as a soybean black root rot control agent and cultivated. Wake up.
At this time, in the soybean black root rot control method according to the embodiment of the present invention, the dose of the soybean black root rot control agent of the present embodiment to a plant is the state of soybean black root rot and the control of soybean black root rot. It can be appropriately selected according to various conditions such as the dosage form of the agent.
In this way, by inoculating the soil with the soybean black root rot control agent of the present embodiment and cultivating soybean, the growth of soybean black root rot fungus can be suppressed and no symptom appears or the outbreak of the disease can be delayed. it can. That is, it is possible to grow soybean normally even in soil in which soybean black root rot fungus, which may cause continuous cropping disorder, is alive.

In addition to the soil-mixed application, the method of application in the soybean black root rot control method of the present embodiment is appropriately determined according to various conditions such as the state of soybean black root rot and the dosage form of the soybean black root rot control agent. It is selectable. For example, it may be applied by direct spraying on the above-ground part of the foliage of a soybean plant, soil irrigation application, seed powder coating treatment, seed application treatment, contact with a damaged part of the plant, or the like. These processes may be performed by one or a combination of a plurality of processes. The application time may be any time such as before cultivation, sowing, and growing. In addition, before and after application, other chemicals or the like may be sprayed to sterilize the soil, or fertilizer may be applied.
In addition, when the above-mentioned Bacillus bacterium is applied to soybean, other active ingredients usually used as needed, such as herbicides, insecticides, nematodes, acaricides, antifungal agents, and killers Bacterial agents, antiviral agents, fertilizers, soil conditioners and the like can also be applied simultaneously or at appropriate intervals.
Further, in the soybean black root rot control method of the present embodiment, for soybeans and edamame to be transplanted and cultivated, seedlings are raised by mixing the soybean black root rot control agent of the present embodiment with the seedling raising soil or by breeding Bacillus bacteria. It is possible to raise seedlings using soil materials. As a result, soybean seeds and seedlings can be suppressed from being infected with soybean black root rot fungus, and their growth can be made healthy.

With the above configuration, the following effects can be obtained.
In recent years, conversion from rice cultivation has been popular in Akita Prefecture, and soybean is the most cultivated crop among them. However, continuous cultivation of the same crop in the same field may cause continuous cropping problems. In particular, soybean black root rot is a disease in which roots begin to rot from the late stage of growth and eventually the soybean dies, but a control method for this disease has not been established.
In addition, since soybean black root rot fungus can survive in soil for 5 years or more and can survive in paddy fields, the occurrence of this disease has become a major problem in the field rotation system.
On the other hand, when soybean is cultivated by inoculating the soil with a soybean black root rot control agent containing an active ingredient derived from the Bacillus bacterium according to the embodiment of the present invention, the soybean black root rot fungus grows. Is suppressed, and it can be expected that symptoms do not appear or the onset of disease is delayed. Therefore, soybean can grow normally even in the soil where soybean black root rot fungus survives.
That is, conventionally, it was impossible to prevent the disease in the soil where soybean black root rot occurs, but by inoculating the soil with the inhibitory bacteria of the present embodiment, this disease can be suppressed and soybeans can be continuously cultivated. Is possible.
In addition, since the Bacillus bacterium according to the embodiment of the present invention is a microorganism that does not impose an environmental load, as a low environmental load type control technique for soybean black root rot, the antagonism of the microorganism is exhibited. It is possible to provide the biological control technology used.

The soybean black root rot control agent, microbial material, and soybean black root rot control method according to the embodiment of the present invention can also be used for controlling black root rot of plants other than soybean.

Next, the present invention will be further described with reference to the drawings, but the following specific examples do not limit the present invention.

〔Test method〕
(raw materials)
In Odate City, Akita Prefecture, a high yield of 240 kg / 10a (Akita Prefecture average 124 kg / 10a) was maintained even after continuous cropping of soybeans for 25 years, and dried chicken manure (Kamada) used in fields where continuous cropping disorders did not occur. Acquired (manufactured by Chicken Manure Co., Ltd.). This dried chicken manure is dried chicken manure and is used as a soil conditioner. The components of this dried chicken manure (per actual product) are pH (H ₂ O) 6.0, TN: 4.0% by mass, C / N ratio 9.1, P ₂ O ₅ : 3.0% by mass, K ₂ O: 1.7% by mass and Ca O: 4.8% by mass.
This dried chicken manure was used as a sample for microbial extraction.

(Test of sample suppression effect on PDA medium)
Soybean black root rot fungus (collected in Tsugaru City, Aomori Prefecture) collected from the soybean black root rot disease group part was cultivated side by side on PDA medium (Nissui Pharmaceutical Co., Ltd., adjusted to pH 6.5). 35 ° C. for 5 days). As for the sample, one teaspoon was placed on the PDA medium, and it was visually examined whether or not the inhibitory effect on soybean black root rot fungus was observed.

(Isolation of microorganisms that suppress soybean black root rot)
A colony of microorganisms generated in a medium showing an inhibitory effect on the growth of soybean black root rot was isolated, and the inhibitory effect of each microorganism on soybean black root rot was measured in the same manner as in the above-mentioned sample inhibitory effect test on PDA medium. , Cultivated in PDA medium at 25 ° C. for 5 days, and visually examined.
Then, three strains of microorganisms having a high inhibitory effect were isolated (APU-W01 strain (NITE P- 02337), APU-O02 strain (NITE P- 02338), APU-T03 strain (NITE P- 02354)). Hereinafter, these microorganisms are referred to as "suppressive bacteria".

(Soybean black root rot fungus and microorganism pH reaction characteristic verification experiment)
In order to investigate the properties of the isolated soybean black root rot fungus-suppressing microorganism, a PDA medium to which a BTB solution was added was prepared, and the pH change during the culturing process was visually examined. In addition, in order to investigate the medium pH reaction characteristics of soybean black root rot bacteria, a BTB solution was added, and soybean black root rot bacteria were cultured in two types of PDA media showing alkaline (pH 9) and neutral (pH 7) (25 ° C., 5 days).

(Identification of microorganisms)
From the isolated microorganisms, three strains (APU-W01 strain (NITE P- 02337), APU-O02 strain (NITE P- 02338), APU-T03 strain (NITE P- 02354)), which had a particularly high inhibitory effect, The eubacteria were identified by the 16S-rRNA gene.
Bacteria of each strain were liquid-cultured in LB medium (manufactured by Difco Laboratories), and DNA was extracted using a diffusion purification kit (Kiagen Co., Ltd.) for whole-genome DNA purification. Using a primer set for 16S-rRNA gene analysis, 27F (5'-AGAGTTTGATCCCTGGCTCAG) and 1492R (5'-GGCTACTTGTTACGACTT), DNA was amplified by PCR, the nucleotide sequence was decoded, and the isolated bacteria were identified. Identified.
In addition, a phylogenetic tree was created using the neighbor-joining method (NJ method) based on the nucleotide sequence of the 16S-rRNA gene.

(Small-scale cultivation test)
A small-scale cultivation test (300 mL pot test) was conducted on the isolated microorganisms. Specifically, three strains of bacteria having a particularly high inhibitory effect were cultured in LB medium (manufactured by Difco Laboratories) at 1000 mL with shaking at 30 ° C. overnight, and OD (Optical Density, optical concentration). In a state where 620 nm = 1.4, the culture solutions of the three strains were mixed in the same volume to prepare a microbial material.
In this cultivation test, the cultivated soil used was the soil of the field where the field cultivation test shown below was performed. This culture soil was inoculated with soybean black root rot fungus that was liquid-cultured in LB medium.
As the treatment group, a soybean black root rot fungus inoculated group inoculated only with the control soybean black root rot bacterium and a soybean black root rot bacterium inoculated + suppressor inoculated group inoculated with 5 mL of the microbial material of this example per pot were set.

Cultivation was carried out in 4 repetitions for statistical processing. Soybean (variety: Ryuhou) was sterilized by seeds and then sown one seed per pot. The cultivation conditions were 28 ° C. in the daytime and 18 ° C. at night.
The cultivation conditions were 16 hours at an illuminance of 25,000 lux (lux) in the light period and 8 hours at an illuminance of 0 lux in the dark period.
For soybean, a prescribed amount of a culture solution (Hyponex (diluted 1000 times), Hyponex Japan Co., Ltd.) was appropriately given during the cultivation period.

(Field cultivation test)
Inoculation effect tests were conducted in the field to see if it was effective in actual soil.
The test was conducted in a farm field in Tsugaru City, Aomori Prefecture. Soybeans were cultivated in this field in the previous year, and continuous cropping disorder due to soybean black root rot occurred. The soil texture of this field was sandy loam.
The microbial material used in the above-mentioned small-scale cultivation (a mixture of three strains of culture solution) was mixed with sterilized dried chicken manure at a weight ratio of bacterial solution: chicken manure = 4: 6, and the dried product was microbial. It was used as an inoculum. One month before soybean sowing, 200 kg / 10a of microbial inoculant was applied and mixed with soil at a depth of about 15 cm using a rotary.
In the field design, as a treatment area, a control non-inoculation conventional area and a microbial material area in which the microbial material of this example was mixed were provided.
Sowing was carried out on June 9, 2016 at about 4 kg / 10a.

〔result〕
(Results of sample suppression effect test on PDA medium)
FIG. 1 shows an example of the result of the suppression effect test of the sample on this PDA medium.
FIG. 1 (a) shows an example of a plate in which untreated samples were cultivated side by side in a state where soybean black root rot fungi extended hyphae after culturing for 6 hours using chicken manure as a sample.
In addition, FIG. 1B shows a plate of PDA medium in which the inhibitory effect was observed as a result of the sample and the experiment on the inhibitory effect of filamentous fungi. When not sterilized, a suppressive effect was observed in dried chicken manure.

(Isolation and suppression effect of microorganisms that suppress soybean black root rot bacteria)
In FIG. 2, three strains of microorganisms (suppressing bacteria) were isolated from dried chicken manure having a high inhibitory effect. These bacteria were Bacillus bacteria, as shown below. FIG. 2 shows the results of the APU-O02 strain, which had a particularly high inhibitory effect among these three strains, but the same results were obtained with other strains.
According to FIG. 2A, when the inhibitory bacterium and the soybean black root rot bacterium were confronted and cultured, the growth of the soybean black root rot bacterium was strongly suppressed.
According to FIG. 2B, the inhibitory fungus proliferated so as to surround the hyphae of black root rot, and the hyphae were discolored and atrophied.

3 (a) to 3 (c) are photographs of the suppressor bacteria APU-W01 strain, APU-O02 strain, and APU-T03 strain enlarged by an optical microscope, respectively.
The APU-W01 strain and the APU-O02 strain were similar in shape. Further, in the APU-W01 strain and the APU-O02 strain, spores were formed at the tips of the cells as shown in the black part of the photograph. On the other hand, the APU-T03 strain was characterized by forming a chain and forming spores inside.

(Soybean black root rot fungus and microorganism pH reaction characteristic verification experiment)
When soybean black root rot bacteria were cultured in an alkaline medium of pH 9 and a neutral medium of pH 7, the black root rot bacteria acidified each medium and elongated hyphae.
A transparent thin film could be observed around the suppressor colony. When the inhibitory bacteria were cultured in an acidic medium, the medium changed to alkaline.

(Identification of microorganisms)
As a result of extracting the DNA of the three isolated strains of the suppressor and identifying the type by the DNA sequence of the 16S-rRNA gene, it is similar to "Bacillus subtilis" and "Bacillus amyloiquefaciens", and it is a bacterium of the genus Bacillus. It turned out to be a kind. Of these, the DNA sequence of the APU-W01 strain is shown in the sequence listing.
According to the classification by the phylogenetic tree in FIG. 4, all three strains of suppressor bacteria, APU-W01 strain (APU-w), APU-O02 strain (APU-o), and APU-T03 (APU-t), are inherited. Although closely related, it was quite distant from Bacillus subtilis var. Natto, which is a type of Bacillus subtilis.

(Small-scale cultivation test)
FIG. 5 shows the state of soybean seedlings 2 weeks after cultivation.
In the soybean black root rot fungus inoculated + suppressive bacterium inoculated group inoculated with the microbial material of this example, the soybean seedlings showed no symptom and grew normally as compared with the control soybean black root rot fungus inoculated group.

(Field cultivation test)
FIG. 6 shows the state of the field as of July, one month after planting in Tsugaru City, Aomori Prefecture, in a field cultivation test. There was not much difference in the growth of the above-ground part between the conventional control area and the microbial material area inoculated with the microbial material of the present embodiment.
FIG. 7 shows the state of soybean roots in this field. In this way, looking at the roots, the conventional area had already been affected by black root rot. On the other hand, in the microbial material area, the rooting was good and there were almost no signs.

[Summary]
(Suppression of soybean black root rot)
Soybean black root rot fungi are generally considered to grow better under acidic conditions than under alkaline conditions. When soybean black root rot fungus was cultured under alkaline conditions, the growth rate was increased by changing the alkaline medium to acidic. Therefore, it is considered that soybean black root rot fungus interferes with the ambient pH in an alkaline medium and tilts the medium to be acidic, thereby changing the surrounding environment to one suitable for the growth of the fungus itself.
On the other hand, it was found that the inhibitory bacteria of the three strains of this example changed the acidic medium to alkaline. From this, it is possible to prevent soybean black root rot bacteria from changing the pH to an environment suitable for reproduction by producing alkaline substances and antagonizing the acidifying action of soybean black root rot bacteria. Become. In addition to the inhibitory effect due to pH fluctuation, the inhibitory bacterium grew so as to surround the hyphae of soybean black root rot fungus, and thus had the effect of killing the hyphae.
In addition, since acidic soil is not preferable for the growth of soybean, it is expected that the soil is made alkaline by the inhibitory bacteria to support the growth of soybean.

In addition, by using suppressors, soil-borne soybean diseases could be reduced.
When soybean was cultivated by inoculating the soil, the growth of soybean black root rot fungus was suppressed and no symptom appeared, and soybean could grow normally even in the soil where soybean black root rot fungus survived.
At this time, in addition to the small-scale cultivation test, the effect was also observed in the field conditions, so that it was useful as a soybean black root rot control agent.

Needless to say, the configuration and operation of the above-described embodiment are examples, and can be appropriately modified and executed without departing from the spirit of the present invention.

The soybean black root rot control agent, microbial material, and soybean black root rot control method of the present invention provide a control agent and microbial material for preventing soybean black root rot, whereby a person skilled in the art can control soybean black root rot. Since it becomes feasible, it can be used industrially.

Claims (4)

Contains active ingredients derived from Bacillus bacteria,
The Bacillus bacterium is
Produce an alkaline substance, possess the ability to basify medium,
The Bacillus bacterium is
It is characterized by being any combination including any one of APU-W01 strain (NITE P-02337), APU-O02 strain (NITE P-02338), APU-T03 strain (NITE P-02354), and a mutant strain thereof. Soybean black root rot control agent. The Bacillus bacterium is
The soybean black root rot control agent according to claim 1, which is isolated from selected dried chicken manure. Contains Bacillus bacteria that produce alkaline substances and have the ability to alkalinize the medium .
The Bacillus bacterium is
It is characterized by being an arbitrary combination including any one of APU-W01 strain (NITE P-02337), APU-O02 strain (NITE P-02338), APU-T03 strain (NITE P-02354), and a mutant strain thereof. A microbial material that suppresses soybean black root rot. Bacteria of the genus Bacillus, which produce alkaline substances and have the ability to alkalinize the medium, are cultivated and applied to soil by the culture solution alone or by mixing with porous materials and / or organic materials .
The Bacillus bacterium is
It is characterized by being any combination including any one of APU-W01 strain (NITE P-02337), APU-O02 strain (NITE P-02338), APU-T03 strain (NITE P-02354), and a mutant strain thereof. Soybean black root rot control method.

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