KR20230106953A - Environmentally friendly growing methods - Google Patents

Abstract

The present invention relates to an environmentally friendly cultivation method, and more particularly, a soil improvement step of spraying fertilizer and microbial agents on the soil before a certain period of time from the sowing date, a sowing step of sowing crop seeds after the soil improvement step, and sowing After the step, a growth step of spraying the microbial agent according to the growth stage of the crop, wherein the microbial agent is formed into a complex lactic acid bacteria including Lactobacillus Paracasei, thereby producing natural fertilizer and microbial agent. It relates to an eco-friendly agricultural product cultivation method that improves soil only by spraying, prevents pest damage, grows crops with improved quality and productivity, and improves soil quality to enable multiple cropping.

Description

Environmentally friendly cultivation methods {ENVIRONMENTALLY FRIENDLY GROWING METHODS}

The present invention relates to an environmentally friendly cultivation method, and more particularly, a soil improvement step of spraying fertilizer and microbial agents on the soil before a certain period of time from the sowing date, a sowing step of sowing crop seeds after the soil improvement step, and sowing After the step, a growth step of spraying the microbial agent according to the growth stage of the crop, wherein the microbial agent is formed into a complex lactic acid bacteria including Lactobacillus Paracasei, thereby producing natural fertilizer and microbial agent. It relates to an eco-friendly agricultural product cultivation method that improves soil only by spraying, prevents pest damage, grows crops with improved quality and productivity, and improves soil quality to enable multiple cropping.

Agriculture is the first primitive industry that humans started living in a settled life from a long time ago, and since ancient times, great attention has been paid to fertilization, weed removal, pest control, etc. to improve the quality of crops and increase production. In the case of Korea, since food self-sufficiency was a very important issue until the 1980s, the problem of increasing production by using chemical fertilizers and pesticides was the biggest concern in agriculture.

However, since the 1990s, the consumption of rice has decreased due to the westernization of food culture, and as interest in the global environment has increased, attempts have been made to change the conventional farming method to an eco-friendly farming method that does not use chemical fertilizers and pesticides. is being done continuously.

The Rural Development Administration defines organic agriculture as agriculture that maintains and preserves safe production of agricultural products and agricultural ecosystems using natural resources such as organic matter and microorganisms without using synthetic chemical materials such as fertilizers and pesticides at all. It can be divided into a biological control technology field related to weed removal and pest control, and a nutrient supply technology field that manages soil fertility and supplies eco-friendly nutrients to crops. However, in the case of using herbs, sawdust, manure, etc. without using any fertilizers or chemicals, it is difficult to expect the harvest of agricultural products of constant quality. As a result, not only a lot of cost is invested, but also only a certain amount of nutrients are supplied, and there is no effect at all on pests, etc. In the end, a separate substance must be sprayed to control pests and pests, and if a large amount is sprayed, it accumulates in the soil There was a problem with soil acidification.

The present invention has been made to solve the above problems, the present invention provides a method for growing eco-friendly agricultural products using microorganisms that can improve soil, supply nutrients, and prevent pests and diseases without using any chemicals. There is a purpose.

An object of the present invention is to provide an eco-friendly agricultural product cultivation method using microorganisms that enables multiple cropping by improving soil quality by spraying microbial agents after composting before sowing or by spraying liquefied manure and microbial agents together.

An object of the present invention is to provide a method for growing eco-friendly agricultural products using microorganisms that can compensate for the depletion of nutrients due to the growth of crops and protect them from pests and diseases.

The present invention helps the root establishment of crops in the early stage of growth, can increase the quality and yield of crops, supplements nutrients due to the depletion of nutrients in the late stage of growth, and cultivates eco-friendly agricultural products using microorganisms that can prevent pests and diseases. The purpose is to provide a method.

An object of the present invention is to provide a method for cultivating eco-friendly agricultural products using microorganisms that enables the improvement of crop quality and yield and the prevention of diseases and pests using only microbial agents without the use of pesticides and soil conditioners.

An object of the present invention is to provide a method for growing eco-friendly agricultural products using microorganisms to further improve the functions of antioxidation and active oxygen removal of microbial preparations.

The present invention is implemented by an embodiment having the following configuration in order to achieve the above object.

According to an embodiment of the present invention, the eco-friendly agricultural product cultivation method according to the present invention includes a soil improvement step of spraying fertilizers and microbial agents on the soil before a certain period of time from the sowing date, and sowing seeds of crops after the soil improvement step. and a growth step of spraying the microbial agent according to the growth stage of the crop after the seeding step.

The present invention can obtain the following effects by combining and using the above embodiments and configurations to be described below.

In the present invention, fertilizers and microbial agents are sprayed before a certain period of time from the sowing date, and microbial agents are sprayed according to the growth stage after sowing, so that soil improvement, nutrient supply, and pest prevention are possible without using chemicals at all. It has the effect of making it possible.

The present invention has the effect of enabling multiple cropping by improving soil quality by spraying microbial agents after composting before sowing or by spraying liquefied manure and microbial agents together.

The present invention has the effect of making the concentration of the microbial agent sprayed in the growth stage after sowing high according to the growth stage of the crop, supplementing the depletion of nutrients due to the growth of the crop, and protecting it from pests and diseases accordingly. .

According to the present invention, according to the growth stage of the crop, the microbial agent is sprayed by dividing it into an early growth stage, a mid-stage growth stage, and a late growth stage, and the microbial agent is sprayed at a low concentration in the early growth stage and at a high concentration in the late growth stage. It has the effect of helping the root establishment of early crops, increasing the quality and yield of crops, supplementing nutrients due to depletion of nutrients in the late stage of growth, and preventing pests and diseases accordingly.

The present invention allows microbial preparations to be formed into complex lactic acid bacteria including Lactobacillus Paracasei to have improved active oxygen removal, decomposition of harmful substances, and sterilization functions, and can be used continuously because it does not accumulate in the body or soil. By doing so, there is an effect of enabling the improvement of crop quality and production, and the prevention of pests and diseases using only microbial agents without the use of pesticides, soil conditioners, etc.

The present invention has the effect of further improving functions such as antioxidation and active oxygen removal by allowing the microbial agent to further include substances such as rhizome extract, propylene glycol alginate, and γ-polyglutamate.

1 is a block diagram showing a method of cultivating eco-friendly agricultural products using microorganisms according to an embodiment of the present invention.
Figure 2 is a detailed view showing the detailed process of the soil improvement step
Figure 3 is a detailed view showing the detailed process of the growth stage

Hereinafter, preferred embodiments of the eco-friendly agricultural product cultivation method using microorganisms according to the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Throughout the specification, when a part "includes" a certain component, it means that it may further include other components without excluding other components unless otherwise stated.

Referring to FIGS. 1 to 3, a method for cultivating eco-friendly agricultural products using microorganisms according to an embodiment of the present invention, the method for cultivating eco-friendly agricultural products is to spray fertilizers and microbial agents on the soil before a sowing date. The improvement step (S1), the sowing step (S2) of sowing the seeds of the crop after the soil improvement step (S1), and the growth step of spraying the microbial agent according to the growth stage of the crop after the sowing step (S2) ( S3) is included. The method for growing eco-friendly agricultural products according to the present invention enables the cultivation of eco-friendly agricultural products using only fertilizers and microbial agents made of natural materials, and the microbial agents are formed of complex lactic acid bacteria including Lactobacillus Paracasei. It is possible to prevent pests, remove active oxygen, and remove harmful substances without adding additional chemicals.

The soil improvement step (S1) removes the toxicity of the soil by spraying fertilizers and microbial agents before a certain period of time, preferably 30 days before the sowing date, neutralizes the acidic soil, and supplies nutrients to the soil so that the crops after sowing to increase the quality and growth rate of The fertilizer applied in the soil improvement step (S1) may be selectively sprayed with compost or liquefied manure, and as described above, the microbial agent containing Lactobacillus paracasei and the fertilizer are sprayed together so that the harmful substances of the microbial agent are applied together. Due to the removal ability, it is possible to prevent problems such as odor caused by the decay of harmful substances contained in fertilizers or soil, and to make compost fermented quickly, and above all, since the microbial agent does not accumulate in the soil and body, continuous use This enables multiple cropping of crops. As shown in FIG. 2, the soil improvement step (S1) includes a fertilizer manufacturing step (S11) of manufacturing fertilizer, a composting step (S12) of distributing compost, a liquefied manure spreading step (S13) of distributing liquefied manure, , a microorganism spraying step (S14) of spraying the microbial agent after the compost spreading step (S12) or the liquid manure spreading step (S13).

The fertilizer preparation step (S11) is a step of preparing compost or liquid manure to be applied in the compost spreading step (S12) or liquid manure spreading step (S13), and the compost or liquid manure is prepared using the microbial agent. The compost or liquid manure may be prepared by fermenting straw, fallen leaves, etc. based on livestock manure, and at this time, fermentation is performed using the microbial agent. Therefore, as the microbial preparation containing Lactobacillus paracasei has a fast fermentation rate, the production time of compost or liquid manure can be significantly shortened, and harmful gases and odors can be removed during the manufacturing process of compost or liquid manure by removing harmful substances. occurrence can be prevented. In addition, the compost or liquid manure produced in the fertilizer production step (S11) does not contain additional chemicals, because pests and diseases are prevented by the microbial agent and sufficient nutrients are supplied.

The compost spreading step (S12) is a step of spraying the compost prepared in the fertilizer manufacturing step (S11) on the soil before sowing, and is sprayed 30 days before sowing, preferably, the compost first before the microorganism spreading step (S14). to be sprayed. Therefore, the microbial agent is sprayed on the solid compost, so that the organic matter in the compost can be effectively fermented. In addition, in the compost spreading step (S12), it is preferable to spray 2 tons per 300 pyeong, but it is not necessarily limited thereto.

The liquefied manure spraying step (S13) is a step of spraying the liquefied manure prepared in the fertilizer manufacturing step (S11) to the soil before sowing, so that it is sprayed 30 days before sowing, and can be sprayed together with the microbial agent. Liquefied manure can also be produced by fermenting livestock manure, and, like compost, separate chemicals should not be added. In the liquid manure spraying step (S13), it is preferable to spray 10 tons per 300 pyeong, but it is not necessarily limited thereto.

The microbial spraying step (S14) is a step of spraying the microbial agent, that is, the complex lactic acid bacteria containing Lactobacillus paracasei, which is sprayed after composting or sprayed together with liquid manure. As described above, the microorganisms sprayed in the microorganism spraying step (S14) speed up the fermentation rate by including Lactobacillus paracasei, and have excellent active oxygen removal and antioxidant capabilities, so that the fermentation of organic matter contained in compost or liquid manure It can make it happen quickly, remove pollutants from soil, and reform acidic soil. Therefore, the soil is changed into high-quality soil containing many nutrients, thereby increasing the quality and production of crops, and since the microbial agent does not accumulate in the soil and body, it can be used continuously, so that one cropping It allows multiple cropping to be possible by allowing the nutrients of the soil to be recovered immediately after the harvest is over. The microbial agent sprayed in the microbial spraying step (S14) is preferably one ton per 300 pyeong, but is not necessarily limited thereto. A detailed description of the microbial agent will be described later.

The plowing step (S15) is a step of inverting and crushing the soil after spraying the compost or liquid manure and microbial agents in the compost spreading step (S12), liquid manure spreading step (S13), and microorganism spraying step (S14). The compost or liquid manure and the microbial agent are well mixed, and harmful substances on the surface are buried so that they can be efficiently removed by the microbial agent.

The sowing step (S2) is a step of planting the seeds of the crop in the soil 30 days after the soil improvement step (S1), and the seeds of the crop are planted in the soil modified by the soil improvement step (S1), and the growth In step (S3), the microbial agent is sprayed for each growth stage.

The growth step (S3) is a step of spraying the microbial agent according to the growth step (S3) of the crop after sowing, and the microbial agent is sprayed at regular intervals. As described above, the microbial agent is a complex lactic acid bacterium containing Lactobacillus paracasei, and as described later, includes substances necessary for plant growth such as nitrogen, potassium, lime, and soil, and contains antibiotics, active substances, etc. It can be created to prevent and eliminate pests. Therefore, there is no need to supply separate pesticides and nutrients, and crops with improved quality and high productivity can be harvested only by spraying the microbial agent.

In addition, in the growth step (S3), a high-concentration microbial agent is sprayed from the early stage to the late stage of crop growth. This is because nutrients are depleted as crops grow toward the later stage of growth, and thus the risk of pests and diseases increases. do. Here, the growth stage generally refers to the early, middle, and late stages of growth of a given crop. For example, in the case of rice, it is generally 43 days before heading out, before that is the beginning of growth, and thereafter until 20 days before going out. is referred to as the middle of growth period, and the period after 20 days before heading out is referred to as the late period of growth. Therefore, the growth step (S3) includes an early growth step (S31), a middle growth step (S32), and a late growth step (S33), and may include a control step (S34) of irregularly spraying a microbial agent. there is.

The initial growth step (S31) is a step of spraying the microbial agent at the beginning of the growth stage. For example, rice is sprayed with the microbial agent once between 43 days from sowing to irrigation. In the early stage of growth, it is most important how well the seeds of the crop take root, and the quality and yield of the crop are determined according to the result. make it possible In the initial growth step (S31), it is preferable to dilute the microbial agent with 200-fold water so that the microbial agent is sprayed at a low concentration, and it is sprayed by foliar fertilization.

The mid-stage growth step (S32) is a step of spraying the microbial agent in the middle of the growth stage. For rice, for example, the microbial agent is sprayed from 43 days before heading out to 20 days before heading out. In the middle of growth, the growth of crops is promoted by spraying the microbial agent to improve crop productivity and prevent pests and diseases. In the middle growth step (S32), the microbial agent is diluted with water 100 times, so that the microbial agent is sprayed at a higher concentration than in the early growth step (S31) and lower than that in the late growth step (S33), and foliar fertilization to be sprayed in this way.

The late growth step (S33) is a step of spraying the microbial agent in the later stage of the growth stage. For rice, for example, the microbial agent is sprayed after 20 days before heading out. In the latter stage of growth, since the nutrients supplied in the soil improvement step (S1) can be consumed and depleted according to the growth of crops, high concentrations of microbial agents are sprayed to supply insufficient nutrients, thereby preventing pests and diseases do. In the later growth step (S33), the microbial agent is diluted with water less than 100 times to spray a high concentration of the microbial agent, and the concentration can be adjusted by determining the growth state of the crop. Therefore, it is possible to control the growth rate and state of crops.

The control step (S34) is a step of irregularly spraying the microbial agent according to the disease state during the growth period of the crop, and the microbial agent is sprayed in the early, middle, and late growth stages (S3), When pests and diseases occur in crops according to the surrounding environment, the microbial agent is sprayed to treat pests and diseases. In addition, in the control step (S34), the effect of control may be improved by spraying general eco-friendly materials such as sulfur according to the degree of pest damage.

Hereinafter, the microbial agent will be described in detail.

The microbial agent is a complex lactic acid bacteria having dozens of microorganisms such as lactic acid bacteria, yeast, Bacillus subtilis, and other bacteria, and in particular, includes a special strain called Lactobacillus Paracasei. Lactobacillus paracasei is a strain of Lactobacillus casei that settles in the intestines or vagina of the human body and blocks the proliferation of T cells, human immune cells, and can interfere with the immune response induced by T cells. It is known as an excellent anti-cancer lactic acid bacteria due to its excellent ability to In addition, Lactobacillus paracasei has an application temperature range of -20 ° C to 100 ° C,

There are no restrictions on light conditions, and it always maintains a stable state. In addition, Lactobacillus paracasei has excellent active oxygen scavenging ability and antioxidant power, is capable of removing harmful substances, has a very short fermentation time, and is characterized by not being accumulated in the body or soil. Therefore, microbial preparations containing Lactobacillus paracasei can prevent or remove pests and pests without additional pesticides, are excellent in removing toxic substances contained in soil, and can be continuously used because they do not accumulate in soil. quality can be improved, and as a result, multiple crops of 3 or more are possible. The Lactobacillus paracasei can mature and ferment native herbs to collect spawn, and cultivate the collected spawn as a complex lactic acid bacteria to produce the microbial agent. Therefore, the microbial agent includes nitrogen, potassium, lime, goto, and the like, and further includes rhododendron extract, propylene glycol alginate, and γ-polyglutamate, so that active oxygen removal, antioxidant power, and the like can be enhanced. The microbial agent is preferably 2.2 parts by weight of nitrogen, 6.4 parts by weight of water-soluble potassium, 2.8 parts by weight of water-soluble lime, 1.5 parts by weight of high-solubility goto, 10-20 parts by weight of Astragalus extract, 2 parts by weight of propylene glycol alginate, based on 100 parts by weight of the microbial agent. ~ 4 parts by weight, and 1 to 2 parts by weight of γ-polyglutamate. However, this is an example and the scope of rights is not limited thereto.

Nitrogen is a component necessary for the growth of crops and allows protein synthesis in crops, and is particularly essential for the growth of leaves and stems.

Kali has the same meaning as potassium, and is involved in the synthesis of proteins in plants and is an essential component for strengthening roots.

Lime refers to calcium oxide or calcium hydroxide, improves soil properties, increases nutrient supply, promotes root development, and strengthens plant tissues to increase resistance to pests and diseases.

Goto refers to magnesium oxide, which plays a role in neutralizing acidic soil into alkalinity.

[0020] The extract of Haengcho refers to a substance extracted from Haengcho, and has antioxidant activity, and is added to the microbial preparation to increase the antioxidative activity of the microbial preparation. In addition, in the present invention, it is possible to produce an inexpensive microbial agent by maximizing the antioxidative activity of Haengcho and enabling mass production by cultivating Haengcho according to a unique method. Demidovia tetragonoides PALL (scientific name: Demidovia tetragonoides PALL) is a perennial plant that grows on the sandy soil of the seashore. It is a rhombic shape close to the form, the end is pointed, the edge of the leaf has no sawtooth and is flat, and 1 or 2 flowers are attached to the axil without a peduncle. It looks like a petal, and the diameter of the flower that blooms in yellow is about 6mm. The benhaengcho is distributed on Jeju Island and several islands in the archipelago and is known to grow in the sandy ground or rock crevices of the beach. Haengcho extract has a strong antioxidant effect, and can be prepared by pulverizing dried Haengcho using a warm air dryer, extracting by immersing in 80% ethanol at room temperature for 40 hours, concentrating the extract and freeze-drying it.

In addition, the seeds soaked in water are sown in a plastic house with sand-mixed soil, and after sprouting, liquefied fertilizer, salt fermentation solution, nutrient supplements, water, etc. are supplied at regular intervals to be collected. To explain in detail the method of cultivating peonies, the liquid fertilizer produced by fermenting citrus flowers and immature fruits is sprayed every 15 days, the liquid fertilizer produced by fermenting windbreak and hyssop is sprayed every 15 days, and anchovies and Ecklonia The salt fermentation solution produced by fermentation is sprayed every 7 days, and the nutrient supplement solution diluted with makgeolli in water is sprayed every 15 days.

There are many restrictions on the growing environment, and in Korea, it is grown only at a certain time in a few areas of Jeju Island and the archipelago. There are circumstances in which it is difficult to use economically. However, by cultivating through the above process, it is possible to obtain anti-oxidant activity, anti-inflammatory and atopic inducer production inhibitory effects of a certain degree or more throughout the year regardless of geographical environment, thereby economically obtaining high-quality anti-apoptotic plants. do.

The propylene glycol alginate is a stable polymer material that promotes emulsification, and is extracted from natural seaweed to be composed of natural materials, to increase the firing efficiency of microbial materials and to remove harmful substances such as heavy metals.

The γ-polyglutamate is a high molecular substance produced during fermentation of soybeans, and has functions such as cell activation and anti-inflammation. to make it stronger.

Therefore, in the cultivation method of eco-friendly agricultural products according to the present invention, crops are grown using only natural fertilizers and microbial agents without using any chemicals for preventing pests, improving soil, or improving crop quality or productivity. Eco-friendly agricultural products can be cultivated at a very low cost, and it can also contribute to the improvement of their quality and productivity.

Hereinafter, a method for cultivating eco-friendly agricultural products using microorganisms will be described in more detail according to the following examples. summer solstice

However, these are only for explaining the present invention in more detail and the scope of the present invention is not limited thereto.

<Example 1>

CFU/mL, 질소전량 2.2 중량부, 수용성칼리 6.4 중량부, 수용성석회 2.8 중량부, 고용성고토 1.5 중량부를 포함하는 미생물제재를 제조함.1. Lactobacillus Paracasei based on 100 parts by weight of microbial agent

CFU/mL, 2.2 parts by weight of total nitrogen, 6.4 parts by weight of water-soluble potassium, 2.8 parts by weight of water-soluble lime, and 1.5 parts by weight of high-soluble clay were prepared.

2. Fermented compost is prepared by adding the microbial agent to pig manure.

3. After spraying 2 tons of the compost on 300 pyeong of soil after harvesting strawberries, 1 ton of the microbial agent was sprayed.

<Example 2>

CFU/mL, 질소전량 2.2 중량부, 수용성칼리 6.4 중량부, 수용성석회 2.8 중량부, 고용성고토 1.5 중량부를 포함하는 미생물제재를 제조함.1, Lactobacillus Paracasei based on 100 parts by weight of microbial agent

CFU/mL, 2.2 parts by weight of total nitrogen, 6.4 parts by weight of water-soluble potassium, 2.8 parts by weight of water-soluble lime, and 1.5 parts by weight of high-soluble clay were prepared.

2. Fermented liquid manure is prepared by adding the microbial agent to pig manure.

3. Spraying 10 tons of the liquid fertilizer and 1 ton of the above microbial agent at the same time per 300 pyeong of soil after harvesting strawberries.

<Example 3>

1. After spraying compost and microbial agents according to Example 1, sowing strawberries 30 days later, immediately after sowing, the microbial agents were diluted in 200 times water and sprayed by foliar fertilization

2. After spraying the microbial agent according to 1 above, when flower buds are formed, the microbial agent is diluted in 100 times water and sprayed by foliar fertilization.

3. After spraying the microbial agent according to 2 above, when the fruit is set, the microbial agent is diluted in 50 times water and sprayed by foliar fertilization.

<Examples 4 to 6>

CFU/mL, 질소전량 2.2 중량부, 수용성칼리 6.4 중량부, 수용성석회 2.8 중량부, 고용성고토 1.5 중량부, 번행초추출물 10 중량부, 알긴산프로필렌글리콜 1.8 중량부, γ-폴리글루타메이트 1.1 중량부를 포함하도록 제조되는 것만 차이가 있음.1. In Examples 1 to 3, the microbial agent was Lactobacillus Paracasei based on 100 parts by weight of the microbial agent

CFU/mL, 2.2 parts by weight of total nitrogen, 6.4 parts by weight of water-soluble potassium, 2.8 parts by weight of water-soluble lime, 1.5 parts by weight of high-solubilized clay, 10 parts by weight of Panax extract, 1.8 parts by weight of propylene glycol alginate, 1.1 parts by weight of γ-polyglutamate The difference is only in manufacturing.

2. The extract of Haengcho is prepared by drying and pulverizing wild Haengcho, immersing in 80% ethanol at room temperature for 48 hours, and then concentrating the extract under reduced pressure and freeze-drying.

<Examples 7 to 9>

In Examples 4 to 6, the cultivated eucalyptus was used, and in the cultivation process, the liquid fertilizer produced by fermenting citrus flowers and immature fruits was sprayed every 15 days, and the liquid fertilizer generated by fermenting windbreak and hyssal was applied every 15 days. The only difference is that the salt fermentation liquid produced by fermenting anchovies and Ecklonia cava is sprayed every 7 days, and the nutrient supplement solution diluted with makgeolli in water is sprayed every 15 days.

<Comparative Example 1>

Before sowing, commercially available organic fertilizer was purchased and sprayed on strawberry harvested rice fields.

<Comparative Example 2>

Strawberries are cultivated and harvested in the usual way.

<Experimental Example 1>

In Examples 1 to 2, 4 to 5, 7 to 8 and Comparative Example 1, the components of the soil were analyzed 30 days after the application of microbial agents or organic fertilizers, and the results are shown in Table 1.

As shown in Table 1, when the microbial agent was sprayed according to the soil improvement step of the present invention, it was confirmed that the acidic soil was neutralized more than when commercially available organic fertilizers were sprayed, and a large amount of nutrients necessary for plant growth were contained. I was able to confirm that there is Therefore, it can be seen that active oxygen or harmful substances in the soil are removed and organic matter contained in compost or liquid manure is efficiently decomposed due to the spraying of the microbial agent according to the present invention.

In addition, since the values of Examples 3 to 4 have higher values than the values of Examples 1 to 2, it can be confirmed that the activity of the microbial agent is increased by adding the extract, propylene glycol alginate, and γ-polyglutamate to the microbial agent. there is.

In addition, as the values of acidity, organic matter, etc. in Examples 7 to 8 are higher than those in Examples 5 to 6, the antioxidative activity of the microbial agent increases as the liquid ratio of various materials is sprayed in the cultivation process of Tohokucho. can confirm that it has been done.

<Experimental Example 2>

In Examples 1 to 2, 4 to 5, 7 to 8 and Comparative Example 1, nematodes present in the soil were investigated 30 days after spraying microbial agents or organic fertilizers, and the results are shown in Table 2.

As shown in Table 2, through the soil improvement step according to the present invention, it can be confirmed that harmful nematodes such as root-knot nematodes, spiral nematodes, wrinkled nematodes, and true nematodes contained in the soil have been removed, and corrosion that eats harmful nematodes It can be confirmed that the number of nematodes increased. Therefore, it can be seen that the prevention of pests and diseases is possible through the soil improvement step.

In addition, when comparing Examples 4 to 5 with Examples 1 to 2, fewer harmful nematodes were found in Examples 4 to 5, and fewer harmful nematodes were found in Examples 7 to 8, It was confirmed that the pest prevention effect increased according to the addition of such, and at this time, it was confirmed that the pest prevention effect could be further improved by adding the liquid fertilizer of various materials to use the cultivated haengcho.

<Experimental Example 3>

The yield, sugar content, hardness, weight, etc. and nutritional components of strawberries grown according to Examples 3, 6, 9 and Comparative Example 2 were analyzed and compared, and the results are shown in Tables 3 to 4.

As shown in Tables 3 to 4, Comparative Example 2 had the lowest value in all parts of nutrition, yield, weight, and sugar content of strawberries, followed by Example 3, Example 6, and Example 9, in order. it can be seen that the increase Therefore, it was confirmed that high quality crops can be produced in large quantities compared to general cultivation methods when the microbial agent according to the present invention is sprayed at regular intervals according to the growth stage, and when the microbial agent is added to the microbial agent, It can be seen that it is effective in supplying nutrients, preventing pests and diseases, and promoting growth. In addition, it was also confirmed that the quality and production of strawberries were further increased when the liquid fertilizer of various substances as described above was sprayed during the cultivation of Haengcho.

In the above, the applicant has described various embodiments of the present invention, but such embodiments are only one embodiment for implementing the technical idea of the present invention, and any changes or modifications are made according to the present invention as long as the technical idea of the present invention is implemented. should be construed as falling within the scope of

S1: Soil improvement step
S11: fertilizer manufacturing step S12: compost spreading step S13: liquid manure spreading step
S14: microorganism spraying step S15: plowing step
S2: Seeding step
S3: growth stage
S31: Early growth stage S32: Middle growth stage S33: Late growth stage
S34: Control step

Claims (1)

A soil improvement step of spraying fertilizer and microbial agents on the soil before a certain period of time from the sowing date, a sowing step of sowing seeds of crops after the soil improvement step, and spraying the microbial agents according to the growth stage of the crop after the sowing step Eco-friendly agricultural product cultivation method, characterized in that it comprises a growth step to.

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