KR20150075167A - A production method of bio-fertilizer using earthworm casting media - Google Patents

Abstract

The present invention relates to a functional bio-fertilizer and a method for producing the same. By using earthworm dejecta soil as a carrier, microorganisms are inoculated, so a soil improving effect is ensured and nutrients are provided to plants. Moreover, several sorts of harmful insects inhabiting soil can be repelled, and a rice farming weeding function is also ensured. More specifically, the method comprises the steps of: mixing 40 to 50 wt% of a carrier using earthworm dejecta soil with 30 to 40 wt% of rice bran, 10 to 20 wt% of fish scrap, 10 to 15 wt% of syrup, and 3 to 8 wt% of microorganisms, adding water to the mixture, and then agitating and fermenting the mixture; feeding the mixture to a pellet machine whose an internal temperature is maintained at room temperature, and molding the same into a pellet; and drying the produced pellet at low temperatures for 6 to 7 hours in a dryer whose temperature is at 30 to 35°C. The bio-fertilizer according to the present invention can exhibit multiple organic farming effects with just one time fertilization, so burden of performing fertilization for several times, which is a conventional method, can be relieved. Also, the same has effects in improving soil, supplying nutrients, repelling several sorts of harmful insects, and controlling growth of the seeds of weeds, so the bio-fertilizer can be usefully used in promoting plant growth, repelling harmful insects, removing weeds, and improving soil.

Description

Technical Field [0001] The present invention relates to a method of producing a biofertilizer using earthworm-

More particularly, the present invention relates to a method for producing bio-fertilizer using earthworm-modified fungi, more particularly, to a method for producing a bio-fertilizer by using an earthworm-modified soil as a carrier and inoculating microorganisms, The present invention relates to a method for producing a functional bio-fertilizer having a herbicidal herbicidal function.

In recent years, environmentally friendly crop cultivation has been spreading through organic farming in consideration of ecosystem conservation and environment friendliness. Organic farming refers to farming using only natural materials such as organic materials, natural ores and microorganisms without using any synthetic chemicals such as chemical fertilizers or organic synthetic pesticides (pesticides, growth regulators and herbicides). This organic farming method is a development agriculture method that has the spirit of saving both human and nature for the purpose of preserving sustainable ecosystem with the production of healthy and safe food. However, the organic farming method is a method that uses conventional fertilizer, pesticide and herbicide Unlike the law, there is considerable difficulty in weeding.

In order to solve this problem, rice cultivation methods are used to control weeds and remove weeds by farming methods using organic materials such as rice bran or ducks, snails, crucian carps, loach and crabs.

The method of weeding the organic matter such as rice bran is to help the growth of microorganisms such as rice bran, and by active breath of the microorganism, it absorbs oxygen to make the partial oxygen deficiency state and suppresses weeds. Secondly, It is farming. However, there are various organic farming methods such as calcium farming method, molasses farming method, salt farming method and microbial farming method in addition to the rice bran farming method as the above-mentioned rice bran farming method. There are advantages and disadvantages of each method, There is a hassle to perform. In rice bran farming, rice bran has to be sprayed in a powder form. However, the pelletization process of pelletizing rice bran by mulching has been applied. However, the pellet must be subjected to high pressure compression during the pellet production process, and the high temperature treatment at the time of removing the moisture causes a lot of damage to microorganisms. There is a problem that the vitality is significantly lowered.

Duck farming. Duck farming with duck farming is a farming method that utilizes ducks as a farming tool and uses it as a form of eco-friendly farming. In the domestic economy area, 942 farms (3,458 hectares of farmland and 4,768 farms across the country) are farming using duck farming at a total of 1,228 hectares such as Yongsan-myeon in Yongsan-si and Gamsam-myeon in Anseong-si. Duck farming has recently been expanded and distributed to farmers through systematic pilot studies of research institutes as the demand for continuous production and supply of safe food has been demanded, and cultivation technology has also been settled. From 1 to 2 weeks after the planting (mid June), the ducks (1,200 to 1,700 won per bird) are distributed for about 10 a (300 pyeong) per month for two months before the rice heading ~ 30 ducks in the method to emit duck manure and other nutrients are supplied in addition to eating grass insects, such as 65 ~ 92% control of weeds and pest insects have advantages. However, due to the synergy of duck manure and organic fertilizer, there are side effects such as odor generation and water pollution. However, when the Rural Development Administration raised the green tea crop (hair ribide) And it has been supplemented to the farmers and the disadvantages have been greatly improved. However, the fact that AI can not use farming methods is the biggest disadvantage, and now it has become a representative of eco-friendly organic agriculture. Currently, it is the only alternative method of agriculture.

Spoonbill farming. Domestic species are the same species as the species inhabited in Japan and the Philippines. Since 1992, the species has begun to be used for farming. In Gyeonggi Province, Yangpyeong (640ha farmland and 1,223 farmland), 2,903ha farmland (5,111,358,338 farmhouses nationwide) are making rice farming with coagulant farming methods. The name was originally imported for food, but it is larger than native species, and as a name, it is a name for a domestic snail, which gives birth to an egg. It is characterized by excellent fertility and is used for farming because of its omnivorous nature and food habits. . After 7 days of planting, 5 kg per 10a should be put in. It is easier to manage with low cost (KRW 6,000 per kg) and excellent herbicidal effect (98.6%) than duck farming method. However, there is a decisive disadvantage that the caterpillars are already recognized as major pests of rice in Asia and other areas. In other words, in 1984 in Japan, the plant was designated as a harmful animal of the crop protection Act, Taiwan is also prohibited form. It is classified as a pest because it can disturb the ecosystem with its great reproductive power and omnivorousness. Especially, due to the global warming, As a result of the survey conducted by the Rural Development Administration, fortunately, Yangpyeong in Gyeonggi Province and Incheon in Ganghwa Province have been confirmed to die in winter due to the cold weather. However, in the southern part of Gyeonggi Province, Recently, the Ministry of Environment has been actively promoting the designation of a "juridical ecological disturbance species" for the Wang Loong Lee, and the Ministry of Food, Agriculture, Forestry and Fisheries and the Rural Development Administration have been opposed to designation for preserving the environment friendly organic farming law.

The spread of bird flu has spread throughout the country, causing damage to farm animals, such as chickens and ducks, that have been hit, and farmers who use rice duck farming to farm rice paddies have switched farming methods by using agrarian methods. While the duck farming method is disappearing in the aftermath of AI, the Ministry of Environment recently has been pushing for the designation as a "disturbing species of forensic ecosystem". However, the Ministry of Food, Agriculture, Forestry, and Fisheries and the Rural Development Administration will continue to controversy because they intend to take aggressive measures to promote eco-friendly farming.

In the days when chemical fertilizer was not produced, self-fertilizer retirement costs, green foliage (poplar, purple soybeans, and vegetable), human milk, seaweed, and hay were produced and used. Since then, the use of fertilizer has been rapidly increasing due to the production and dissemination of chemical fertilizer, and the production of self-supporting fertilizer has started to decrease gradually. As the industry rapidly developed, the industrial waste was mass-produced, and as the population of the rural area was introduced into the city, the rural population was reduced, and the aged and females became aged and the self-produced fertilizer was produced by using the agricultural by- Organic fertilizer and by-product fertilizer.

However, since organic fertilizer and byproduct fertilizer contain large amount of organic matter and small amount of various trace elements, it is not only useful for crops, but also improves the physical, chemical and microbial properties of the soil, and is known as a very beneficial fertilizer. Unlike compost, which is a self-supporting fertilizer, which has been mainly used for agriculture, forestry and fisheries, the fertilizer content is high and the organic matter content And it is necessary to produce and sell high-quality by-product fertilizer because it may contain harmful components. Some of the producers of by-product fertilizers may not meet the process standard of by-product fertilizer because they produce and supply products using industrial wastes as raw materials. The use of illegal products distributed without permission may cause damage to farmers Many are appearing. In addition, due to the use of poor raw materials with high heavy metal content and the lack of by-product fertilizer production technology, pollution of farmland and various damage to crops are occurring. The most important reason why farmers use these fertilizers is because the quality of fertilizer is relatively higher than that of poor fertilizer and the cost of fertilizer is higher than that of poor fertilizer. Since the accumulation and the damage of the crop may appear, the application of the proper amount is more important than anything else.

Many organic resources are generated as waste due to the increase of income of the people and improvement of eating habits, and they are buried or incinerated. However, research on the recycling of organic wastes has been proceeding due to the prohibition of direct landfilling of organic wastes and the cost of incineration construction. Typically, Respectively. Earthworms produced by the treatment of organic wastes using earthworms can be said to be highly effective in protecting or improving the soil due to high ineffective components and various microorganisms. When used as an organic fertilizer resource, it can reduce resource recycling and environmental pollution. It can be said that it is preferable in two aspects. In particular, domestic soil has low fertility and can solve problems such as depletion of organic matter due to cultivation of crops in small - scale farms.

On the other hand, it is an organic synthetic pesticide that has grown rapidly with the development of the chemical industry. These organic synthetic pesticides have contributed significantly to the increase in the production of food resources, However, the disadvantage of excessive use of organic synthetic pesticides is that, as is already known, due to the residuals of degradable components in the natural environment and contamination of agricultural products and groundwater by heavy metals contained in the residual components, It is destroying the ecosystem that is home. For this reason, the Rio Environmental Conference in June 1992 initiated an international agreement to halve the use of organic synthetic pesticides by 2004. Therefore, in some developed countries, many studies are being carried out to develop environmentally friendly biopesticides, and some countries have completed the development of biopesticides for some pests. Therefore, countries that depend only on organic synthetic pesticides in the future are expected to suffer a severe impact on the dominance regulations of countries that have already developed biological pesticides in the future. In order to cope with such international trends, it is urgent to secure resources of indigenous microorganisms well adapted to the domestic natural environment, and research for increasing the insecticidal power and increasing sustainability can be required. In addition, It is necessary to develop functional biomass fertilizer that can restore the soil power and control the soil pest in the trend that the use of soil is lost due to the use and the damage caused by various pests is increasing.

As a result, the inventors of the present invention have made efforts to develop new functional biofuels to solve the above problems, and as a result, they have produced pellet-form biofuels containing earthworms, rice bran, fish hulls, molasses and microorganisms as ingredients, The bio-fertilizer produced greatly improves the mulching effect of pellets and can exert many organic fertilizing effects with a single fertilization, thereby suppressing weed growth, increasing its efficiency, and greatly increasing the taste and yield The present invention has been accomplished by confirming that it has a herbicidal function for organic farming field farming and water-related works.

It is an object of the present invention to provide a method for manufacturing a bio-fertilizer capable of activating a microorganism while minimizing the damage of the microorganism which has a great influence on the inhibition of weed growth while producing a pellet-type functional microorganism fertilizer.

It is another object of the present invention to provide a method for producing a pellet of a pellet, which can greatly improve the mulching effect of the pellet produced by the above production method, The present invention is to provide a bio-fertilizer having an organic farming field or a herbicidal function used in a water-related field, which can increase the efficiency and greatly increase the taste and yield of the crop.

It is a further object of the present invention to provide a method for improving the growth of crops and rice, controlling pests, suppressing the growth of weeds which are obstacles to the growth of crops, The method comprising:

It is still another object of the present invention to provide a method for neutralizing contaminated soil by fertilizing the bio-fertilizer to a contaminated soil, restoring and activating the native microorganisms in the contaminated soil and improving the contaminated soil by utilizing the activated native microorganisms .

In order to achieve the above object,

i) Mixing water with 40 to 50% by weight of earthworms, 30 to 40% by weight of rice bran, 10 to 20% by weight of fish meal, 5 to 15% by weight of molasses, and 3 to 8% by weight of microorganism, ;

ii) introducing the fermented mixture of step i) into a pellet and molding it into pellets; And

iii) low-temperature drying the molded pellets of step ii) as a carrier.

The present invention also provides a bio-fertilizer using the earthworm-modified soil produced by the production method according to the present invention as a carrier.

The present invention also provides a herbicide containing the bio-fertilizer according to the present invention.

The present invention also provides a soil conditioner or a soil microorganism restorer containing the bio-fertilizer according to the present invention.

In addition, the present invention provides a plant growth promotion method comprising fertilizing the bio fertilizer according to the present invention to a crop or soil.

In addition, the present invention provides a method for controlling insects, comprising the step of fertilizing the bio fertilizer according to the present invention to a crop or soil.

The present invention also provides a herbicidal herbicidal composition comprising the step of weeding the herbicidal composition according to the present invention into weeds or soil.

In addition, the present invention provides a soil improvement method or soil microorganism restoration method comprising the step of putting the soil remediation agent or the soil microorganism restoration agent according to the present invention into the soil.

According to the method for producing bio-fertilizer according to the present invention, it is possible to exert all the effects of a large number of organic farming methods with a single fertilization, so that it is possible to eliminate the inconvenience of separate fertilization as in the past, But it can greatly improve its efficiency and can greatly increase the taste and yield of the crop. In particular, it enables the crop to be evenly harvested even at low temperatures, thereby enabling early harvesting of the crop.

Specifically, since the biofuel according to the present invention is formed into a pellet type, it can be applied uniformly without being scattered even when fertilized, and is also useful for forming a microbial membrane by being located on a surface layer of a soil. Particularly, Lt; RTI ID = 0.0 > microorganism < / RTI >

In addition, the bio-fertilizer according to the present invention has a beneficial effect of performing all the organic farming methods such as rice bran farming, calcium farming, molasses farming, salt farming, microbial farming, to provide.

Therefore, the bio-fertilizer according to the present invention has a very excellent effect of making the growth of rice well. Especially, since the microbes are sufficiently usable, oxygen deficiency is formed in the surface layer of the soil while absorbing dissolved oxygen in the water. It is useful to inhibit the growth of weed seeds by causing organic acids, thereby increasing the yield of rice and the taste of rice.

In addition, according to the soil improvement method using the soil microbial restorative using bio-fertilizer according to the present invention, it is possible to utilize the indigenous microorganisms in the contaminated soil to restore the contaminated soil and to improve the soil by introducing an external microorganism In order to accelerate the activity of indigenous microorganisms, it is more economical, and in order to promote the activity of the indigenous microorganisms, the earthworms which are able to promote the microbial activity by promoting the habitat environment suitable for the formation and prosperity of the indigenous microorganisms in the contaminated soil, It is possible to shorten the restoration time of the contaminated soil and to provide an unpleasant smell without secondary pollution by introducing the soil microorganism restorer used in the past.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a bio fertilizer using ground earthworm as a carrier according to the present invention. FIG.
FIG. 2 is a flowchart illustrating a method for producing bio-fertilizer using the earthworm-modified earthworm according to the present invention as a carrier.
3 is a photograph showing the bio fertilizer according to the present invention.
FIG. 4 is a diagram showing the herbicidal principle when bio-fertilizer according to the present invention is used as a herbicide for field farming.
FIG. 5 is a diagram showing the herbicidal principle when bio-fertilizer according to the present invention is used as a herbicide in aquatic plants.
FIG. 6 is a schematic view showing a process of using the bio fertilizer according to the present invention for soil improvement.

Hereinafter, the present invention will be described in detail.

The present invention

i) Mixing water with 40 to 50% by weight of earthworms, 30 to 40% by weight of rice bran, 10 to 20% by weight of fish meal, 5 to 15% by weight of molasses, and 3 to 8% by weight of microorganism, ;

ii) introducing the fermented mixture of step i) into a pellet and molding it into pellets; And

iii) low-temperature drying the molded pellets of step ii) as a carrier.

In the above-mentioned method, the characteristics and function of the earthworm-modified soil as a carrier are already being actively promoted globally in terms of recycling of waste resources and environmental protection, by using a physiological characteristic of earthworms to stabilize organic sludge In Korea, the National Institute of Environmental Research (KERI) has developed and distributed organic processing technology using earthworms in 1990, and it is estimated that about 110,000 tons of organic wastes are treated at about 80 sites per year. However, although the technology of treating organic sludge with earthworms has been established in Korea to a certain extent, it is limited in the limitations of the substances to be treated, the application of small-scale sites, and the lack of effective utilization of earthworms The limitations of application technology are being exposed.

However, unlike ordinary soils, earthworms have important physico-chemical and biological properties and are considered as important by-products. The major characteristics of earthworms are as follows: earthworms have a single structure, ~ 10 times better drainage, good ventilation and good plant roots growth, chemical properties such as high calcium, magnesium, potassium, phosphoric acid content and organic matter content of 58% are relatively high. In addition, as shown in Table 1, the specific surface area (400 to 800 m ² / g) of the activated carbon is larger than that of the activated carbon, and the cation exchange capacity (230 to 460 mg / 100 g) It can be said that it plays an important role not only as a fertilizer but also as a microorganism carrier.

Physical and chemical properties of earthworm importance Packing
Water volume Density Porosity Granularity pH EC N.P.K Trace element 0.6 to 0.8 88.2% 0.60 74.5% 2 mm 5.5 to 7 1 or less 1 or less 5%

In addition, it has been reported that Bacillus sp., Which is an antibiotic-secreting bacterium, is contained as a biological substance, thereby destroying soil pathogenic fungus spores and inhibiting the growth of pathogenic bacteria in the soil. As shown in Table 2, Which is suitable for use as a microorganism carrier, has been evaluated in various studies.

Comparison of microorganisms in earthworm feces Total bacteria
(10 ⁸ ) Actino mycetes
(10 ⁵ ) Fungi
(10 ⁴ ) Gram bacteria
(10 ⁵ ) Sporeforming bacteria
(10 ⁴ ) 5,320 8.6 50.0 7.6 198.0

In addition, when the earthworm is applied to the soil, the microorganisms in the soil rapidly increase to decompose the organic matter. Among the various decomposition products produced in the decomposition process, the heavy and minor components supply nutrients to the crops. · Nucleic acids · Organic acids · Vitamins · Corrosion play a role in promoting the growth of crops. The degradation products and hyphae produced by the soil microorganisms cause the formation of the entrance structure of the soil particles and the increase of the soil pore. Therefore, the permeability and the permeability of the soil air are increased and the permeability and the water holding capacity of the soil are increased. Generally, the phosphoric acid component is fixed in the soil when the soil is acidic and is present in the soil in a form that the roots of the crop can not be absorbed. The phosphoric acid component immobilized in the soil is a kind of organic acid And can be absorbed and utilized by crops. In addition, the corrosion caused by the decomposition of the organic matter increases the base substitution capacity (CEC) and increases the bibbing power, increases the buffering power of the soil, increases the poison relief by the harmful substances such as heavy metals, promotes useful chemical reaction, , Inhibiting the development of pests caused by the proliferation of beneficial antagonists, and so on. In addition, when using the earthworm-modified fungi, various functions are synergistically combined to improve the quality of the crop.

In the above method, the rice bran improves the growth of the growth crops even in the absence of sunshine in addition to the function of controlling the weeds through microbial growth, and in particular improves the taste of the rice by increasing the magnesium depending on the growth of the crop .

In the above method, the fish is preferably composed of a canary bark, wherein the canary bark is made from the residual squeeze out of the cannabis sauce, and contains abundant amounts of salt, calcium, iron, DHA, essential amino acids and various minerals. However, the fish is not particularly limited thereto, and almost all of the materials usable in both the calcium farming method and the salt farming method of the paddy field can be substituted. The fish is composed of cannabis leaf and contains many kinds of salt such as sun salt, calcium, DHA, essential amino acid and various minerals. Therefore, it acts as a component to simultaneously perform calcium farming and salt farming. In addition to suppressing growth of weeds, , The effect of organic fertilizer is enhanced to increase the vitality of the crops to improve the growth and improve the taste of the rice.

In the above method, 5 to 10% by weight of silk having a high nitrogen content may be further added to the mixed composition of the above-mentioned composition so as to improve the herbicidal function.

Herein, the rice bran and shrub aid in the growth of microorganisms, absorb oxygen of the surface layer through the microorganisms propagated, and make the surface soil oxygen deficient, thereby suppressing the growth of wet weed seeds. The microbial fertilizer is scattered to form a sticky layer, and a microbial film is formed at the bottom of the fertilizer. When the microorganism membrane is formed as described above, the oxygen deficiency state progresses around the microorganism membrane, and the lactic acid bacteria which are anaerobic bacteria are gradually activated, so that rice bran and molasses are decomposed and various organic acids are formed. At this time, the weed control function is exercised.

In addition to various minerals, the sun dried salt contained in the canard leaves used in the fish hulls contains a large amount of physiological active substances, thereby preventing pests from growing on the crops, enhancing growth and taste, and promoting the activation of microorganisms .

In this method, the molasses is a byproduct generated in the sugar production process, and has a characteristic of being in close contact with a high specific gravity, so that a thin film is formed on the surface of the soil, and the light blocking effect of adhesion to the surface layer of the soil, So that oxygen is consumed by the active growth of microorganisms, and as a result, it acts as an anaerobic lactic acid bacteria, so that it acts to suppress the growth of weeds through the organic acid generated by the decomposition of sugar do.

In the above method, the microorganisms can be classified into a microorganism, a microorganism, a microorganism, a microorganism, a microorganism, to be.

In particular, the microorganism is preferably a mixture of two or more selected from the group consisting of photosynthetic bacteria, bacillus, lactic acid bacteria and yeast, and more preferably a mixed strain in which all of these four strains are mixed.

Preferably, the microorganisms are composed of a mixture of a pulverized microorganism and a liquid microorganism, and the pulverized microorganism and the liquid microorganism are each composed of a mixed strain of photosynthetic bacteria, bacillus, lactic acid bacteria and yeast.

Among the microorganisms, photosynthetic bacteria synthesize soil organic carbon through photosynthesis, and a large amount of useful substances such as various amino acids, nucleic acid substances, saccharides, vitamins and physiologically active substances are biosynthesized with the organic carbon as a substrate, Stimulates or promotes the growth of other beneficial microorganisms as well as promotes. In addition, it not only suppresses harmful bacteria by producing antimicrobial substances, but also acts to correct the acidity of the soil by releasing alkaline substances while growing.

Among these microorganisms, bacillus is an organic substance-degrading microorganism that anaerobically metabolizes various saccharide starches such as glucose. It helps to develop the sticky layer of the soil surface and secretes the alkaline degrading enzyme, so the surface layer PH becomes weak alkaline. When the activity is strong, it makes the surface soil layer black soil.

Among the microorganisms, lactic acid bacteria act to prevent deterioration of rice constitution by synthesizing and supplying high quality nutrients (vitamins, amino acids, growth regulating hormone and nucleic acid) and various functional materials (various decomposing enzymes) while decomposing organic matter in the soil , The ability to adsorb and supply fertilizer components to organic acids that are produced from photosynthetic bacteria and yeast-derived saccharides as substrates. In addition, lactic acid bacteria inhibit the propagation of harmful microorganisms and rapid decomposition of organic matter by strong bacteriocidal activity of organic acids, and produce anti-pathogenic factors, thereby enhancing the tolerance to the growth crops.

Yeasts in the microorganisms synthesize a large amount of amino acids and vitamins, which are essential for crop growth, using amino acids, saccharides, and organic substances produced by the photosynthetic bacteria and secretions from the roots of the crops. In particular, Through the synthesis of the active substance, it acts to activate the roots and cell division of crops. In addition, a substrate for producing lactic acid bacteria is produced.

In the above method, when the bio fertilizer according to the present invention is used for plowing, it is effective to pelletize the raw material in a sufficiently fermented state. However, when the bio fertilizer is used for weeding, the raw material is stirred or mixed, It may be effective to pellet it in a non-advanced state or in an initial fermentation state.

The pelletization is preferably carried out using a pelletizer, wherein the pellet has an internal temperature of 25 to 35 占 폚.

In the above method, the low temperature drying is preferably carried out at a temperature of 30 to 38 DEG C for 6 to 7 hours.

In the present invention, earthworm fecal soil produced through the process of treating various organic wastes with earthworms is sorted to a certain size using a 2 mm sieve sorting machine, and microorganisms are inoculated to obtain a natural resin (pulp-like medicament fiber fiber) Was used as a binder to prepare a pellet-shaped carrier for producing biofuel having a diameter of about 1 to 10 mm (see FIGS. 1 and 2).

Specifically, in the present invention, as shown in Fig. 1, 10 to 20% by weight of fish oil, 5 to 15% by weight of molasses and 3 to 8% by weight of microorganisms are added to 40 to 50% by weight of earthworm- A raw material mixing step (S1) of adding the raw materials to a fermentation stirrer, adding water and water to the mixture, stirring the mixture, fermenting the mixture, and fermenting the mixture while mixing; A pellet molding step (S2) of causing the pellet molding machine to pellet the pellet molding machine while maintaining the internal temperature condition at room temperature; And a low-temperature drying step (S3) of drying the prepared pellets at a temperature of 30 to 38 DEG C for 6 to 7 hours through a dryer.

Thus, the microorganisms inoculated into the carrier by the biofuel according to the present invention are decomposed and proliferated by using the organic material to form a microbial membrane on the surface of the microorganism carrier, and the organic matter present in the soil is decomposed and used. These proliferated micro-organisms grow in the soil again to form a micro-organism membrane, which will lead to various functions. Carriers for the production of biofuels, organic matter and various nutrients in the soil maintain the viability and function of microorganisms for a long time, and have soil improvement through the formation of the soils of the soil, nutrient supply effect to plants and weed control function.

The present invention also provides a bio-fertilizer using the earthworm-modified soil produced by the production method according to the present invention as a carrier.

In addition, the present invention provides a plant growth promotion method comprising fertilizing the bio fertilizer according to the present invention to a crop or soil.

In addition, the present invention provides a method for controlling insects, comprising the step of fertilizing the bio fertilizer according to the present invention to a crop or soil.

It can be seen that microorganisms exist in the form of mixed strains in the bio fertilizer according to the present invention. By the action of these microorganisms, it is shown that the nutrients are supplied to the crops and the usefulness of improving the growth is exhibited.

The bio fertilizer according to the present invention is used in the case of a paddy field farming plant using a fertilizer spreader within a week after transplanting. Of course, since it is related to the harvesting day, it is a good time to weed out 100 to 150 kg per 300 ㎡.

The present invention also provides a herbicide containing the bio-fertilizer according to the present invention.

The present invention also provides a herbicidal herbicidal composition comprising the step of weeding the herbicidal composition according to the present invention into weeds or soil.

The bio-fertilizer according to the present invention can be applied to a paddy fertilizer having a mixed composition of rice bran, rice hull, molasses, microorganism or silk to suppress weeds by early anomalous reduction (lack of oxygen) / It helps the weeds by controlling the activity of microorganisms such as various minerals in seawater and organic acids to inhibit weeds. It inhibits weeds by the light blocking effect by water blurring phenomenon when organic acids are generated. And weed control is suppressed by the light blocking effect.

In the present invention, when the bio-fertilizer according to the present invention is uniformly applied, the soil surface layer is covered with the surface layer of the paddy so that the microorganism (aerobic bacteria) primarily consumes oxygen to make oxygen deficient state, And inhibited germination. Over time, the pellet-type fertilizer is scattered on the surface of the rice paddy and forms a sticky layer, so that the paddy soil is mulched with a microbial membrane. As a result, As a result of the active use of the lactic acid bacteria, the activity of the lactic acid bacteria, which are relatively anaerobic bacteria, becomes active as the oxygen deficiency state progresses. As a result, rice bran and molasses are decomposed and various organic acids are produced.

The present invention also provides a soil conditioner or a soil microorganism restorer containing the bio-fertilizer according to the present invention.

The present invention also provides a soil improvement method or soil microorganism restoration method comprising the step of putting the soil remediation agent or the soil microorganism restoration agent according to the present invention into the soil.

Specifically, the method comprises: (S1) excavating and shaving contaminated soil on site; An inputting step (S2) of inputting the soil remediation agent or the soil microorganism restoring agent into the contaminated soil to be replaced; A second step (S3) in which the introduced soil remediation agent or the soil microorganism restorer and contaminated soil are replaced; And an environment forming step (S4) for setting a moisture content and a temperature of the soil so that soil microbes can easily be recovered from the contaminated soil.

The soil amendment agent or the soil microorganism restorer is produced by mixing peat, peat, and humus soil with earthworm-containing soil or the bio-fertilizer of the present invention. The polymerized sludge, the corrosion product of the metabolite produced by the conventional anaerobic bacteria, Mg or the like to promote chelation in which the heavy metals such as Mg react with each other to promote agglomeration reaction and to make domesticated anaerobic fungi dominant to activate and promote soil microorganisms.

The soil amendment agent or the soil microorganism restorer may contain 19 to 40% by weight of SiO ₂ , 2 to 4% by weight of N 2, 4 to 40% by weight of P ₂ O ₅ , 50 to 70% by weight of organic matters in comparison with the earthworm- 2 to 4 wt%, K ₂ O 1 to 2 wt%, MgO 0.3 to 1.0 wt%, MnO 0.02 to 0.04 wt%, and B ₂ O ₃ 0.008 to 0.015 wt%.

The soil amendment agent or soil microorganism restorer has a pH of about 6 to about 7, and more preferably about 6.5 on average. Considering that the pH of domestic soil is usually 6.0 or less, a side effect of soil neutralization is obtained have.

The soil amendment agent or the soil microorganism restorer has a cation exchange capacity (CEC) of about 18 to 20 me / 100 g, and more specifically about 19.20, 13 me / 100 g or so. Of course, the higher the cation exchange capacity of the common soil, the better, but the cation exchange capacity of the soil amendment agent or soil microorganism restorer of the present invention is sufficient.

The soil amendment agent or the soil microorganism restorer preferably contains about 9.0 to 9.5% by weight of water.

The soil amendment agent or the soil microorganism restorer may further include Phylite or the like in addition to the above-described composition.

Phyllite is an English name for phyllite. It is a kind of sedimentary rock that naturally produces the best environmental conditions for small animals such as various plants growing on soil and earthworms such as earthworms growing in soil, and indigenous microorganisms. The weathering has progressed by repeating the decomposition, synthesis and fermentation by the movement of the primitive microorganism which obtains the nutrients to the creatures such as fishes and shellfishes. The above-mentioned phyllite contains a large amount of various minerals and trace elements including many organic substances , a pH of 6.5 to 7.5, a porosity between crystal grains of 65% and a water holding capacity of 43%. The filler is preferably added in an amount of 4 to 6% by weight relative to 100% by weight of the soil remediation agent or soil microorganism restorer.

Therefore, the addition of the filler to the soil amendment agent or the soil microorganism restorer having the pH value of about 5.5 to 7.0 on the average can neutralize the contaminated soil layer that has been extremely acidified in a short time, Rich and enriched, thereby providing various nutrients necessary for the growth and development of the plant, thereby enhancing the native microbial activity capacity. And also functions to reinforce the water-repellent agent having a water holding capacity of about 9.0 to 9.5% by weight or the water-repellent agent of the soil microorganism restorer.

The soil modifying agent or soil microorganism restoring agent may be added with calcium carbonate or calcium carbonate or a mixture of calcium oxide and calcium carbonate in addition to the filler. The addition ratio of the calcium oxide or calcium carbonate or the mixture may be the same as the soil improving agent It is preferably 3 to 5% by weight relative to 100% by weight of the total amount of the soil microbial restorer and filler.

The mixing ratio of the soil amendment agent or the soil microorganism restorer to the contaminated soil may be as small as about 3 to 5 parts by weight based on 100 parts by weight of the contaminated soil. As a result, it is possible to obtain superior effects in terms of time and economy than other existing soil improvement methods.

However, the soil remediation agent or the soil microorganism restorer according to the present invention and the process using the same are not merely a concept of neutralizing the contaminated soil, but also an indigenous microorganism in the contaminated soil So that the polluted soil can be improved by utilizing activated native microorganisms.

Hereinafter, the present invention will be described in more detail by way of examples of the present invention.

However, the following examples are provided only for the understanding of the present invention, and the scope of the present invention is not limited to the following examples.

< Example  1> Manufacture of bio fertilizer

45 kg of earthworms, 35 kg of rice bran, 10 kg of fish, 10 kg of molasses, 5 kg of molasses, 6 kg of microorganisms and 5 kg of Chinese cabbage were added to a fermentation stirrer and then 15 L of tap water was added thereto. Then, the fermented mixture was pelletized by being injected into a peptide group in which an internal temperature condition of room temperature (25 to 35 DEG C) was formed. Then, the molded pellets were applied to a drier and dried at a temperature of 30 to 38 DEG C for 6 to 7 hours to prepare a bio fertilizer (FIGS. 1 and 2).

Here, the microorganisms were prepared by mixing 3 kg of the liquid microorganism and the powder microorganism of the mixed strain. At this time, the number of microorganisms in the fertilizer was analyzed, and the results were as shown in Table 3 below.

The number of microorganisms to be produced in the bio fertilizer of the present invention division Liquid microorganism Powdery microorganism Photosynthetic bacteria 2.0 x 10 &lt; ⁸ &gt; / g 1.0 x 10 &lt; ⁶ &gt; / g Bacillus 1.0 × ¹⁰ 10 / g 1.0 x 10 &lt; ⁷ &gt; / g Lactobacillus 1.9 x 10 &lt; ¹¹ &gt; / g 1.0 x 10 &lt; ⁷ &gt; / g yeast fungus 3.9 × 10 ¹⁰ / g 6.0 x 10 &lt; ⁷ &gt; / g

Table 3 shows the average data of microorganisms cultivated in the bio-fertilizer of the present invention over a dozen times, and the liquid microorganisms were analyzed by the microorganism analysis method (Standard method) of the American Health Association (APHA) , And the pulverized microorganisms are analyzed by the standard method of counting after plate culture by continuous dilution.

< Example  2> Confirmation of herbicidal effect of bio-fertilizer

In order to examine the herbicidal effect of the bio-fertilizer prepared in Example 1, the bio-fertilizer of the present invention was uniformly sprayed in a week after the transplanting of rice and sprayed with 130 kg per 300 square meters. At this time, rice should be planted with sturdy seedlings for more than 35 days, since it is severely bruised before the rice is planted.

After the planting, the bio fertilizer of the present invention was evenly sprayed using a fertilizer spreader and sprayed with 130 kg per 300 square meters.

As a result, the bio-fertilizer of the present invention covers the surface layer of the soil while being in close contact with the surface layer of the rice paddy so that microbes (aerobic bacteria) consume oxygen to make an oxygen deficient state and thereby germination of wet weeds is suppressed Respectively.

Also, over time, pellet-type fertilizers were scattered on the surface of the rice paddy and formed a sticky layer, resulting in the same effect as mulching the rice paddy field with the microbial film. Therefore, it is observed that the activity of lactic acid bacteria, which are anaerobic bacteria, becomes active as the oxygen deficiency state progresses due to active use of oxygen due to active microbial growth. As a result, it was observed that rice bran and molasses were decomposed and various organic acids were produced, thereby suppressing aquatic weeds.

< Example  3> Confirmation of soil improvement effect of bio fertilizer

<3-1> Preparation of composition for soil improvement using bio-fertilizer

Peat, peat, and humus were mixed with the bio-fertilizer of the present invention.

Specifically, in comparison with the bio-fertilizer of the present invention, 19 to 40 wt% of SiO ₂ , 2 to 4 wt% of SiO ₂ , 2 to 4 wt% of P ₂ O ₅ , K ₂ O 1 , MgO 0.3 to 1.0 wt.%, MnO 0.02 to 0.04 wt.%, And B ₂ O ₃ 0.008 to 0.015 wt.% Were mixed and granulated to form a composition.

As a result of analyzing the composition thus prepared, the pH was 6 to 7, the cation exchange capacity (CEC) was 18 to 20 me / 100 g, and the content of water containing 9 to 9.5 wt% Respectively.

<3-2> Confirmation of soil microbial restoration effect using composition for soil improvement

The contaminated soil was replaced to facilitate the introduction of the composition for soil improvement of the present invention. Then, the soil improving composition according to the present invention is added to the soil in an amount of 3 to 5 wt% relative to the soil, and then the applied composition is secondarily ground so as to be well mixed with the contaminated soil.

In the conventional known method, the contaminated soil was excavated at the contaminated soil site and transferred to the site secured for the existing biological restoration method. Then, the environment for microbial growth was improved to improve the soil. In the present invention, It is not necessary to transfer and the process of adding the soil improving composition of the present invention directly to the contaminated soil site and mixing it with the contaminated soil is sufficient.

Then, in order to facilitate the activity of the indigenous microorganism due to the soil improving composition of the present invention in the mixed contaminated soil, an appropriate temperature and humidity environment should be prepared. The water content is adjusted to 70 to 75% by volume, Was kept at 2 ~ 3 ° C higher than normal temperature. At this time, in order to maintain the temperature higher than room temperature, the outside of the mixed contaminated soil was mulched by covering with paper or vinyl cover. Then, soil microbial population, nitrogen salt ratio and salt ratio were measured and compared.

Comparison of Soil Condition with and without Treatment of Soil Improvement Composition division Untreated control group Soil improving composition treatment group Soil microbial population (per L) 3 X 10 ⁶ 6 X 10 ⁹ Nitrogen removal rate 50% 93% Salt removal rate 30% 90%

Conventionally, the contaminated soil is neutralized, whereas in the present invention, the soil improvement method through the composition for soil improvement and the composition of the composition for soil improvement applied in the above-mentioned method are not merely a concept of neutralizing the contaminated soil, And restored and activated the indigenous microorganisms in the soil, so that it is possible to improve the contaminated soil by utilizing the activated indigenous microorganisms.

The present invention relates to the development of fertilizers for promoting the growth of organic crops and rice, the development of herbicides that can inhibit the growth of weeds, which are obstacles to the growth of crops, and the development of soil improvement agents for contaminated soil, It can be useful for development.

100: Bio-fertilizer according to the present invention;
101: organic matter inflow;
110: microorganism membrane of bio-fertilizer;
111: CO ₂ , NH ₃ , NO ₂ -, N ₂ , organic acids and the like;
112: photosynthetic bacteria;
113: Microorganisms such as bacillus;
120: earthworm carrier surface layer (rice bran etc);
200: Earthworms;
300: weed seeds etc; And
400: surface layer microbial membrane.

Claims (15)

i) Mixing water with 40 to 50% by weight of earthworms, 30 to 40% by weight of rice bran, 10 to 20% by weight of fish meal, 5 to 15% by weight of molasses, and 3 to 8% by weight of microorganism, ;
ii) introducing the fermented mixture of step i) into a pellet and molding it into pellets; And
iii) low-temperature drying the molded pellets of step ii).
[Claim 7] The method according to claim 1, wherein the microorganism in step i) is at least two mixed strains selected from the group consisting of photosynthetic bacteria, bacillus, lactic acid bacteria and yeast.
The method of claim 1, wherein 5 to 10% by weight of silkworm is further added as a raw material for the step i), as compared to 100% by weight of the whole.
The method of claim 1, wherein the pellet of step (ii) has an internal temperature of 25 to 35 占 폚.
The method according to claim 1, wherein the low-temperature drying in step iii) is performed at a temperature of 30 to 38 DEG C for 6 to 7 hours.
A bio-fertilizer produced by the method of claim 1, which uses earthworm-modified soil as a carrier.
[7] The bio-fertilizer of claim 6, wherein the bio-fertilizer has nutrient supply, pest control, plant growth promotion, and growth inhibition of weed seeds.
A herbicide containing the bio-fertilizer of claim 6 as an active ingredient.
A soil conditioner comprising the bio-fertilizer of claim 6 as an active ingredient.
11. The method of claim 9, wherein the soil amendment agent comprises 19 to 40 wt% of SiO ₂ , 2 to 4 wt% of SiO ₂ , 2 to 4 wt% of P ₂ O ₅ , 50 to 70 wt% of organic matters, 1 to 2 wt% of K ₂ O, 0.3 to 1.0 wt% of MgO, 0.02 to 0.04 wt% of MnO, and 0.008 to 0.015 wt% of B ₂ O ₃ .
10. The soil conditioner according to claim 9, wherein the soil conditioner is a soil microorganism.
A method for promoting the growth of a crop comprising the step of fertilizing the bio-fertilizer of claim 6 to a crop or soil.
A herbicidal method comprising the step of fertilizing the herbicide of claim 8 in weed or soil.
A soil improvement method comprising the step of fertilizing the soil improver of claim 9 in a soil.
14. The method of claim 13,
i) shaving contaminated soil;
ii) adding 3 to 5% by weight of the soil amendment agent of claim 9 to the contaminant soaked in step i);
iii) a second step of bringing the soil remediation agent injected in step ii) into contact with the contaminated soil; And
iv) forming soil so that the soil of step iii) has a water content of 70 to 75% by volume and a temperature of 2 to 3 캜 higher than normal temperature.

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