KR100462953B1 - The microbe fertilizer's producting method be used by microbe and humic acid - Google Patents

Abstract

The present invention relates to a method for producing microbial fertilizers using microorganisms and humic acid, and aims at improving soil and increasing plant immunity and growing plant immunity, and cultivating microorganisms producing antifungal substances. It is a method of preparing a mixture of the cultured culture medium or culture powder and the humic acid or powder humic acid extracted from the caustic.

When foliar spraying of the fertilizer of the present invention on the soil or plants, the antifungal substance produced by the microorganisms inhibits or kills the growth of the fungus when a fungal disease occurs during the growth of the plant, and the humic acid is a growth plant as an organic carbon source. It is used as a nutritional source of nutrients to help root development and growth and to increase autoimmunity, and to adsorb with fertilizer salts remaining in the soil to alleviate serial disturbances, and to be buffered by alkalizing by mixing with soil.

Description

The microbe fertilizer's producting method be used by microbe and humic acid}

The present invention relates to a method for producing a microbial fertilizer using microorganisms and humic acid (Humic Acid) and extracts the humic acid from the corrosive raw materials (leafy, peat, peat, etc.) and inoculated and incubated in the medium to the microorganisms By mixing with liquid or powder humic acid to produce non-toxic biofertilizer to improve the soil, to solve the hindrance, improve the growth of cultivated plants, increase immunity and improve the quality of cultivated plants.

Today, crops are being increased by faculty cultivation by facilities such as plastic houses and local specialty farming.

Specialized farming and promoting cultivation in such regions lead to serial cultivation, which causes a lot of problems in serialization due to salt accumulation of the soil.

In other words, due to the repeated cultivation of the same crops, salt accumulation occurs in the soil and rotation is carried out to remove salt accumulation. However, crop rotation is impossible in areas with limited cropland, and organic matter (compost, organic matter) is used as a means of eliminating salt during farming. Fertilizer, etc.) is used to reduce the accumulation of salts, but there is a limit to compost production due to lack of labor, and organic fertilizers, etc., have limitations in eliminating salt in repetitive series.

In addition, even if it is rotated, the soil is acidified and eutrophicated due to excessive use of chemical fertilizers to increase the productivity of agricultural products, resulting in undesired growth of crops, weakened immunity due to the lack of immunity, and pesticides in agricultural products produced by excessive spraying of pesticides. As this remains, it impedes public health and reduces yields.

As a means to solve this problem, large quantities of organic matter are applied to the soil to reduce salt accumulation and acidification of the soil, or to rotate it. However, this is not widely used in the realization of specialized agriculture in areas with a large number of rental farms and narrow agricultural land.

In addition, fertilizers have been developed in which powders mixed with various microorganisms such as natural ore powders, plant juices and muco racosus are administered to soil or cultivated plants, which increase crop yield and bring about improvement of soil. When used in watering facilities, it does not dissolve in water and has a high specific gravity, so it blocks the nozzle in the waterway or remains in the pipe, so it is ground fertilization or foliar fertilization in powder form, and in the case of ore powder It has the effect of increasing water by physical functions such as various inorganic matters contained in, porosity, and far infrared rays. It also changes acidity (pH) in soil and improves soil, but minerals of ore powder are decomposed into soil and soil is improved. It is economical because a large amount of ore powder must be supplied to reach the change of acidity of soil. You have a fault.

Accordingly, the present invention solves the conventional defects and mixes the microbial strains cultured in humic acid extracted by using the foliar soil, humus soil, peat, peat, etc., and fertilize the soil and cultivated plants to enhance the effect of increasing the produce and plant immunity. The purpose of the present invention is to provide a method for producing microbial fertilizers using antagonistic microorganisms and humic acid, which can bring about an effect of improving soil.

A microbial strain producing an antifungal substance is cultured in a medium and bacteriostatic to prepare a culture medium or a culture powder, and to prepare a humic acid powder or a humic acid extracted from a corrosive substance to prepare a microorganism and a humic acid.

The manufacturing process of the present invention will be described in detail for each process as follows.

[Step 1] (cultivation of microorganisms)

Diffco strains of one or more strains, such as Cellulomonas, Bacillus, Streptomyces, Trecodelma, Pseudomonas, etc., which produce antifungal substances. (Diffco) 's LB broth, Nutriunt broth's selected PDB or Merck's PDA medium and KCTC published in bacteria and fungi growth medium published in the Korea Advanced Institute of Science and Technology (KCTC) 2-3 days at 25 ~ 40 ℃ Incubate the microorganisms.

[Step 2] (Bacterial Process)

When the microbial culture process is completed in the first step, the cells are collected at a centrifuge at 2,500 to 4,000 rpm, and in the case of filamentous fungi, bacteria are collected or collected by using a membrane filter or a filter paper to prepare a culture medium or collected. The cell is prepared by mixing and stirring at least one of silicon dioxide (SiO ₂ ), polyacryl, zeolite, elvan, and clay in a volume ratio of 30:70 and drying to obtain a culture powder.

[Step 3] (Manufacturing Process of Corrosive Acid)

Choose from sodium hydroxide (NaoH), potassium hydroxide (KOH), calcium chloride (CaCl ₂ ), and dissolve it in water to form a strong alkaline water of pH 12 or higher. And strong alkaline water in a ratio of 30:70 by weight ratio, stirred for 1 hour or more, precipitated for 24 hours or more, the precipitate was dried to form a powder of 250 ~ 360 mesh state to form a primary powder humic acid, The solution was filtered with a filter of 360 mesh or more, and then the filtrate was prepared to have a pH of 1 to 2 using hydrochloric acid or nitric acid. The precipitate was then separated from the solution, and the precipitate was dried to prepare a secondary powder humic acid. Dissolve in and prepare a pH 8 ~ 9 to prepare a liquid corrosion acid.

4th process (mixed production process of microorganisms and liquid humic acid)

The solution is prepared by mixing liquid corrosive acid, nitric acid, phosphoric acid, and kali prepared in the third process with a weight ratio of 75: 4 to 6: 6 to 4: 2 to 4: 1 and correcting it with boron, zinc, iron, and copper. Microbial culture solution of the second step and the mixture in a weight ratio of 90 ~ 98: 10 ~ 2 is quantitatively packaged and commercialized.

At this time, the microbial strain is present in spores without growing on the alkaline pH 8-9 without any effect on the temperature.

[Step 5] (Mixed Product Process of Microbial Bacteria and Powder Humic Acid)

The primary powder humic acid prepared in the third step, the secondary powder humic acid, and the microbial culture powder of the second step by mixing and homogenizing 62 ~ 70:30 ~ 20: 8 ~ 10 by weight ratio to be packaged and commercialized.

Referring to the embodiment when cultivating fruit vegetables using the microbial fertilizer of the present invention prepared as described above are as follows.

Example 1 (beet, Chinese cabbage cultivation)

Radish and Chinese cabbage seeds were sown and planted in a vinyl house in Munyang-ri, Dasa-eup, Dalseong-eup, Daegu, Korea.

In the process of making the field, fertilize the fertilizer with fertilizer (Namhae Chemicals) at the base, and then fertilize four complex plant nutrients, liquid lime, and trace urea with water in the untreated area, as in normal cultivation. 500 ml of the solution was diluted 40 times with water, and two times at 7 days intervals were sown after cultivation.

The germination rate was uneven in the untreated area after 8 days after sowing, and evenly in the untreated area. After 21 days, both cabbage and radish showed significant difference in growth.

21 days after sowing (no treatment area, cabbage) 21 days after sowing (treatment area, cabbage)

21 days after sowing (no treatment area, radishes) 21 days after sowing (treatment area, radishes)

In addition, in the present invention, the method of diluting the liquid fertilizer in water and the method of fertilizing the powder state were carried out, respectively, but the results showed similar results, and the harvesting time was more than 50% in the treatment zone rather than the untreated zone. .

Example 2 (Melon Powder Control Experiment of Melon)

The powdery mildew occurred in the plastic house of the melon cultivation complex in Doseong-ri, Seongju-myeon, Seongju-gun, Gyeongsangbuk-do. The powdery mildew was difficult to control with general public medicines.

The powdery mildew progeny has been reported in the literature as a plant parasite, but the culture was carried out by changing the medium (medium of host plant-derived components) and confirmed the excellent antagonism to powdery mildew by administering the microbial fertilizer of the present invention. .

In-flight culture of white powdery pathogen (7 days culture)

7 days after administration of microbial fertilizer in powdery mildew

In addition, after 4 days after the start of the disease, the liquid microbial fertilizer was controlled at a ratio of 40 times, and the treated area and the untreated area were compared after 10 days. In the untreated area, the stem turned pale green and the growth was stopped. In the treatment area, however, powdery mildew was killed and growth continued.

14 days after disease occurred 10 days after disease occurred

As such, when the fungal disease occurs in fruit and vegetables, the plant pathogen acquires a resistance mechanism, and if the same drug is used continuously, control effects cannot be obtained. However, the microbial fertilizer of the present invention is foliar to the plant. When spraying (fertilizing), the antifungal substance produced by microorganisms inhibited or killed the growth of fungi, and the humic acid was a nutrient source for growth plants, which helped the development and growth of roots and had autoimmunity. Humic acid is an organic substance that remains in the soil and is adsorbed with fertilizer salts that damage plant growth. Microorganism strains act in the soil to neutralize salts and insoluble substances.

In addition, the humic acid in the powder state in the present invention is a powder of strong alkali, so when used in the acidified soil while alkalizing the soil to prevent the rapid pH change in the soil by mixing with the soil.

In addition, the present invention is liquid microbial fertilizer is mixed in the water tank and fertilized by irrigation, there is no change in specific gravity and easy to dissolve, and in the case of powder fertilized in the soil or plant foliar fertilization is convenient.

Therefore, the present invention as described above is used to cultivate antagonistic microbial culture and mixed with humic acid in the liquid or powder state to produce a microbial fertilizer to use in the cultivation of various agricultural plants, so as to increase the transpiration and soil improvement and the immunity of the growing plant It is a useful invention with the effect.

Claims (4)

Method for producing microbial fertilizer using microorganisms and humic acid, characterized in that the culture medium or culture powder cultured and cultured microorganisms producing antifungal substances and mixed humic acid or powder humic acid extracted from the corrosive material The method of claim 1, Strong alkali water with pH of 12 or more is mixed in a weight ratio of 30:70, stirred for at least 1 hour, precipitated for at least 24 hours, and the precipitate is dried to form a primary powdered humic acid. After filtering, the solution was dried to pH 1 ~ 2 using hydrochloric acid or nitric acid to dry the secondary precipitate to form secondary powder humic acid, and the solution was prepared by mixing liquid corrosive acid with pH 8-9 using microorganisms. Of microbial fertilizer using microorganism and humic acid The method of claim 1, It is characterized by mixing the solution of the liquid corrosion acid, nitrogen, phosphoric acid, alkali in the weight ratio of 75: 4-6: 6-4: 2-4 and the microbial culture at a weight ratio of 90-98: 10-2 Manufacturing method of microbial fertilizer using a microorganism and humic acid The method of claim 1, Method for producing microbial fertilizer using microorganisms and humic acid, characterized in that the first powder is prepared by mixing and homogenizing humic acid, secondary powder corrosion acid and microbial culture powder in a weight ratio of 62 ~ 70:30 ~ 20: 8 ~ 10