KR20120068272A - A tonic of laver using microorganism and method of manufacturing the same - Google Patents

Abstract

PURPOSE: An environment-friendly laver activation processing agent and a method for manufacturing the same are provided to obtain cultured laver of high quality without sea pollution. CONSTITUTION: An environment-friendly laver activation processing agent using microorganisms is prepared by: mixing mixture bacteria, natural mineral extract, citric acid, and lactic acid or acetic acid to prepare a mixture medium(S10,S20,S30,S40); and culturing at 30°C-40°C. The mixture bacteria further contains Acetobacter. The natural mineral extract is prepared by heating perlite, pitchstone, or obsidian containing 66% or more of silica in water at 70°C for 1-2 days.

Description

Eco-friendly laver active agent using microorganism and its manufacturing method {A tonic of laver using microorganism and method of manufacturing the same}

The present invention relates to a laver active agent used to remove impurities that grow together with laver during laver farming in laver farms in the near-shore coast of Korea. Seaweed treatment agent used for acid treatment to remove seaweed bottle, diatoms, hazelnuts, seaweed, etc., which lowers its commerciality and productivity.It replaces the seaweed treatment agent using inorganic acid such as hydrochloric acid, which is illegally abused recently, The present invention relates to an eco-friendly laver active agent using a microorganism that does not destroy the marine ecosystem and its manufacturing method.

In general, laver is one of the most basic side dishes that can be easily purchased at any home in Korea, and it is widely used by both young and old because of its low price and good taste. Especially, laver is a food rich in protein, iron, calcium, and vitamins. It is rich in vitamin A. It is also rich in vitamin C, which contains ingredients that help prevent aging and cancer.

Dried laver is also rich in dietary fiber, which promotes the release of toxic substances and waste products such as carcinogens, makes you feel full, and slows the absorption of fat, which is known to be effective in preventing adult diseases such as obesity and diabetes. It is used habitually. Thus, seaweed farming occupies most of the seaweed farming in Korea, and fishermen who farm seaweed earn a lot of income through seaweed farming.

In general, laver is farmed in two ways: prop and subdivision. The props are built up and fixed on the sea floor in the shallow seas, and the nets are hung on the shores.The tide is immersed in the seawater at high tide and exposed at high tide. Haitai's inherent power makes it possible to produce nutrients through the photosynthesis using sunlight, and to repeat the process of growing itself.At the same time, when exposed to sea water, it is sterilized by ultraviolet rays and naturally dried. It has the advantage of producing good laver.

On the other hand, the buoy type is a method of hanging seaweed nets on buoys in a relatively deep sea and cultivating seaweed in submerged seawater at all times. It is always submerged in water, which prevents photosynthesis due to limited exposure to sunlight, and phytoplankton, such as diatoms, adhere to the seaweed and inhibit the growth of seaweed. .

Since 90% of domestic laver farming is farmed in this way, the seaweed is less likely to grow on its own, and must be treated with artificial processing to prevent pests and to remove diatoms and green laver.

As mentioned above, in aquaculture farms, acid treatment is carried out to remove impurities such as diatoms, muds, and greens, which inhibit the growth of seaweeds and cause the seaweeds of seaweeds to grow on their own by growing together with seaweeds in the Haitai network. Remove impurities through

Generally, the acid treatment agent used in the acid treatment is prepared by mixing up to 9.5% of inorganic acid (hydrochloric acid) with organic acids such as malic acid and citric acid, which is an acceptable standard according to related laws, and the method using the acid treatment agent prepared as described above. It is common practice to remove impurities by passing a seaweed net grown by seaweed through an acid treatment agent diluted in seawater.

However, as a source of income for a large number of seaweed fishermen, the seawater temperature caused by recent extreme weather has caused many difficulties in domestic crops.

Moreover, unlike the conventional production of seaweed laver in Korea, Japan, and China in the world, and Korea and Japan accounted for most of the production of seaweed laver, the international laver price has been declining as Chinese laver is rapidly supplied to the market. In Korea, there is little change in unit price due to the increase in size and mass production of seaweed farming, resulting in stagnation of unit prices. Many fishermen use acidic industrial inorganic acid (hydrochloric acid), which is prohibited by law in the process of acidic seaweed treatment to increase production, thus causing pollution of seawater and industrial mineral acid (hydrochloric acid, nitric acid, phosphoric acid, sulfuric acid). As the acid-treated seaweed is supplied, it threatens the health of consumers.

The acid treatment using inorganic acid removes impurities by passing the Haitai net in which seaweed is growing in hydrochloric acid diluted in sea water as above, and the dilute hydrochloric acid diluting solution in the seaweed and Haitai net flows into the sea as it passes. As a result, the marine ecosystem is destroyed, and hydrochloric acid remains in the seaweed farmed with hydrochloric acid, which is adversely affecting the health of consumers.

Therefore, in the Ministry of Agriculture, Forestry and Fisheries Food Notice No. 2008-31, Article 3, ① ① The active treatment agent should be rapidly decomposed in seawater and not remain in laver leaf. ② claim 4, Paragraph 1, Item component inspection table according to the fourth provisions include pH, an organic acid component and a chloride ion (Cl ^-), sulfate ion (SO ₄ ^-2), nitrate ion (NO ₃ ^-), total nitrogen, total phosphorus, heavy metals The content and content of the and the content of the other components can be specified in addition to the other columns. ③ The permissible content of ingredients under paragraph (2) is as follows. 1. Organic acid: 15.00% or more 2. Chlorine ion, sulfate ion, nitrate ion: The total content should be 8.00% or more and 9.50% or less. Sulfate ion and nitrate ion cannot exceed 2.00%, respectively. Must not contain chlorine, sulfate, or nitrate ions. ”Strictly regulates the components of the acid treatment agent and encourages the dissemination of organic acid treatment agents or gimactivators to replace inorganic acid treatment agents. For this reason, the effect is insignificant.

The reason why the use of seaweed treatment agent is insignificant is that the use of organic acid prescribed by the Ministry of Food, Agriculture, Forestry and Fisheries as the main raw material of seaweed treatment agent is more expensive than the inorganic acid, and also the productivity is low. In addition, since the container containing the inorganic acid is left unharmed, it causes secondary pollution. Therefore, it is urgent to develop an eco-friendly seaweed treatment agent that replaces the existing inorganic acid to satisfy safety, commerciality, economical efficiency, and productivity at the same time.

In general, organic acids are carbon and hydrogen, and may include nitrogen and sulfur, and are acidic organic compounds. Examples of organic acids include malic acid, citric acid, acetic acid, and lactic acid, which are harmless to humans. Known as a compound.

On the other hand, inorganic acid is an acid produced by the combination of acid groups containing nonmetals such as chlorine, sulfur, nitrogen, and phosphorus with hydrogen. Representatively, there are hydrochloric acid, sulfuric acid, and nitric acid, which are highly toxic and do not decompose in seawater. It contaminates, kills phytoplankton that feeds fry, and in turn destroys the marine ecosystem, and causes fatal harm to the human body of ingested seaweed treated with inorganic acids.

For this reason, the use of inorganic acids is banned, but in the case of seaweed farming, the use of inorganic acids makes it easier to remove pirates, diatoms, and miscellaneous goods with less labor than organic acids. Since it is possible to harvest and inorganic acids are cheaper than organic acids, the use of inorganic acids in seaweed farming is illegal.

Recently, the active treatment agent for seaweed farming using organic acid is disclosed in Korea Patent Publication No. 0551565, purified or distilled wood vinegar 35 to 60% by weight, citric acid 35 to 50% by weight, tartaric acid 5 to 10% by weight, pH lowering agent (acetic acid, adipic acid, ita) 1-10 wt% of cholic acid, phytic acid, lactic acid), 3-15 wt% of at least one salt selected from the group consisting of sodium chloride and potassium chloride have been developed, but it replaces the existing gimactivator However, the seaweed active agent using the wood vinegar solution is very rarely used in the field, the practical availability of the industry, the main raw material wood vinegar (1,250 won / liter for agriculture) and citric acid (15,900 won / kg), The price of tartaric acid (17,000 won / kg) is expensive, in particular, in the case of tartaric acid, there is a problem such as depending on the total amount of imports, the situation is not actually used.

In order to solve the above problems, eliminating the addition of any chemicals as well as the chemical treatment step in the whole process of manufacturing, contribute to the stability of the marine ecological environment by producing a seaweed active agent using microorganisms In order to contribute to increase the income of fishermen as well as to complete the present invention.

The present invention is one or more porous igneous rocks selected from yeast, lactic acid bacteria, photosynthetic bacteria, subtilis bacteria, mixed acetic acid bacteria, pearlstone, pearlstone, pitchstone, obsidian By providing an eco-friendly seaweed treatment agent using a microorganism prepared by culturing in a medium using natural mineral extracts, citric acid, lactic acid or acetic acid extracted from and the method for producing the same, impurities impairing the commerciality of seaweed, namely, pirates, diatoms, miscellaneous, Solving the seaweed contributes to the excellent productivity and commerciality of aquaculture laver to enhance the income of fishermen and solve the problem of providing eco-friendly laver active agent that does not contaminate sea water by eliminating any chemicals or chemical treatment. Do it with the task you want to do.

The present invention is a mixture of yeast, lactic acid bacteria, photosynthetic bacteria, Bacillus subtilis mixed; Natural mineral extracts extracted from at least one porous igneous rock selected from pearl rock, songji rock and obsidian; Citric acid; A lactic acid or acetic acid; is mixed to form a mixed medium, and an environmentally friendly laver active agent using microorganisms prepared by culturing in a microbial medium at 30 ° C. to 40 ° C. is a solution for the problem.

The mixed bacteria is an environmentally friendly laver active agent using microorganisms, characterized in that further mixed acetic acid bacteria as a means of solving the problem.

In addition, the mixed bacteria are yeast, lactic acid bacteria, photosynthetic bacteria, Bacillus subtilis, acetic acid bacteria are uniformly mixed with each other to obtain an eco-friendly laver active agent using a microorganism, characterized in that obtained by culturing in a medium.

In addition, the natural mineral extract is obtained by heating one or more porous igneous rocks selected from pearl rock, pine rock, and obsidian with a content of silica (SiO ₂ ) of 66% or more to 70 ° C. in a weight ratio of 1 to 2 days. Environmentally active laver active agent using a microorganism characterized in that the pH of 7 to 8 as a solution to the problem.

In addition, the mixed medium is mixed with bacteria 40 ~ 80% by weight, natural mineral extracts 7 ~ 24% by weight, citric acid 5 ~ 30% by weight, lactic acid or acetic acid 5 ~ 30% by weight of the environment-friendly using microorganisms A laver active treatment agent is used as a solution to a problem.

In addition, the present invention comprises the steps of culturing for one week at 30 ℃ ~ 40 ℃ mixed bacteria comprising yeast, lactic acid bacteria, photosynthetic bacteria, Bacillus subtilis, acetic acid bacteria; Natural minerals obtained by filtering one or more porous igneous rocks selected from pearl rock, pine rock, and obsidian with a content of silica (sio2) of 66% or more in water of the same weight ratio by heating at 70 ° C. for 1 to 2 days. Preparing an extract solution; Mixing the mixed bacterial culture and the natural mineral extract solution; Mixing citric acid to the mixed bacterial culture and natural mineral extract solution mixture; Mixing lactic acid or acetic acid to the mixed bacterial culture, natural mineral extract solution and citric acid mixture to form a mixed medium; The method for producing an environmentally friendly laver active agent using a microorganism comprising the step of culturing the mixed medium for 3 to 4 days as a means of solving the problem.

Eco-friendly seaweed treatment agent using microorganisms according to the present invention removes impurities that inhibit the commerciality of seaweed, namely, pirates, diatoms, miscellaneous crops, seaweed, etc. to contribute to the excellent productivity and commerciality of cultured seaweed, and to increase the income of fishers At the same time, there is a significant effect that does not contaminate sea water by excluding any chemical addition or chemical treatment.

1 is a manufacturing process of the eco-friendly seaweed treatment agent using a microorganism according to the present invention.

The present invention is a mixture of yeast, lactic acid bacteria, photosynthetic bacteria, Bacillus subtilis mixed; Natural mineral extracts extracted from at least one porous igneous rock selected from pearl rock, songji rock and obsidian; Citric acid; Lactic acid or acetic acid; is mixed to form a mixed medium, and an eco-friendly laver active agent using a microorganism prepared by culturing in a microbial medium of 30 ℃ ~ 40 ℃ conditions is characterized by the technical configuration.

The mixed bacteria is characterized by an environmentally friendly seaweed treatment agent using a microorganism, characterized in that further mixed acetic acid bacteria.

In addition, the mixed bacteria is an eco-friendly laver active agent using a microorganism, characterized in that the yeast, lactic acid bacteria, photosynthetic bacteria, Bacillus subtilis, acetic acid bacteria are uniformly mixed and cultured in a medium, the technical configuration.

In addition, the natural mineral extract is obtained by heating one or more porous igneous rocks selected from pearl rock, pine rock, and obsidian with a content of silica (SiO ₂ ) of 66% or more to 70 ° C. in a weight ratio of 1 to 2 days. Eco-friendly seaweed treatment agent using microorganisms, characterized in that pH 7 ~ 8 is characterized by a technical configuration.

In addition, the mixed medium is mixed with bacteria 40 ~ 80% by weight, natural mineral extracts 7 ~ 24% by weight, citric acid 5 ~ 30% by weight, lactic acid or acetic acid 5 ~ 30% by weight of the environment-friendly using microorganisms The laver active treatment agent is characterized by the technical configuration.

In addition, the present invention comprises the steps of culturing for one week at 30 ℃ ~ 40 ℃ mixed bacteria comprising yeast, lactic acid bacteria, photosynthetic bacteria, Bacillus subtilis, acetic acid bacteria; Natural minerals obtained by filtering one or more porous igneous rocks selected from pearl rock, pine rock, and obsidian with a content of silica (sio2) of 66% or more in water of the same weight ratio by heating at 70 ° C. for 1 to 2 days. Preparing an extract solution; Mixing the mixed bacterial culture and the natural mineral extract solution; Mixing citric acid to the mixed bacterial culture and natural mineral extract solution mixture; Mixing lactic acid or acetic acid to the mixed bacterial culture, natural mineral extract solution and citric acid mixture to form a mixed medium; It characterized by the technical configuration of a method for producing an environmentally friendly laver active agent using a microorganism comprising a step of culturing the mixed medium 3 to 4 days.

Details of the technical configuration will be described in more detail below, and the detailed description of well-known functions or configurations related to the technical configuration of the present invention will be omitted if it is determined that the subject matter of the present invention may be unnecessarily obscured. do.

First, yeast used in mixed bacteria is widely known as a microorganism mainly used when fermenting plants such as bread, beer, and wine. Recently, it is important as part of an eco-friendly organic method in agriculture and animal husbandry. Yeast breaks down and solubilizes insoluble nutrients, and breaks down organic matter for absorption by plants.

In addition, the secretion of yeast bacteria can be expected to have beneficial effects on crops, such as nutrients for plants, and in the livestock industry, digestive enzymes contain, antibacterial, and help the growth of intestinal bacteria in animals, secretion of antibacterial substances to suppress harmful bacteria and disease of animals It is known to exhibit an effect of reducing occurrence.

On the other hand, lactic acid bacteria are generally known to be a microorganism that contains a large amount of conventional fermented foods such as kimchi and yogurt to facilitate bowel movements and promote smooth bowel movements. However, there are many beneficial effects in agriculture. It is also generated. However, lactic acid bacteria are widely used in organic farming because they can be expected to have a function of inhibiting the growth of harmful bacteria such as decayed bacteria and pathogens in addition to the purpose of producing nutrients by the decomposition of sugars like the yeast when used in agriculture.

In addition, photosynthetic bacteria grow in the anaerobic state by using light and heat to convert harmful substances into harmless substances, and absorb carbon dioxide and nitrogen using solar energy to produce nutrients such as sugars, amino acids and vitamins. It is widely used in organic farming because it has a rich effect, and also synthesizes nutrients such as vitamins and amino acids from pollutants such as hydrogen sulfide, ammonia, methane gas, mercaptan, etc. As a microorganism to be produced, it is a microorganism that has been actively studied for its utility and use in recent years.

In addition, Bacillus subtilis is a non-pathogenic bacterium widely distributed in nature, particularly in air and dry grass. Bacillus subtilis has excellent viability even in the environment of radiation and chemicals because it has circular or oval spores in the center of the microbial cells, and Bacillus subtilis secretes cell wall degrading enzymes to directly kill pathogens harmful to plants. In addition to its function, it has the effect of preventing harmful pathogens by counteracting pathogens on plants, and is the most widely used antimicrobial microorganism in Korea. It has been proven.

In addition, acetic acid bacteria (Acefobacter) is generally aerobic bacteria involved in the production of vinegar to oxidize alcohol to produce acetic acid (醋酸, acetic acid), it is well known as a microorganism to make vinegar, a health food that is familiar to the public. On the other hand, acetic acid produced by decomposition of alcohol by acetic acid is a kind of organic acid, has excellent sterilizing power, and has the function of cultivating and harvesting healthy agricultural products in healthy soil by preventing soil diseases by sterilizing microorganisms harmful to soil crops in agriculture.

In the present invention, by using the microorganisms as described above in the seaweed farming, as well as the increase in the effect of removing blemishes, and help the gimyeo body to glide on the seaweed farming net, supply the nutrients necessary for growth and produce the seaweed of good quality at the same time The effect of prevention can also be expected.

The yeasts, lactic acid bacteria, photosynthetic bacteria, Bacillus subtilis, acetic acid bacteria mixed bacteria are cultured in a medium, and then uniformly mixed, and then cultured in a medium to prepare a mixed bacteria, the mixed bacteria is 40 g of the active treatment agent of the present invention Although it is preferable to use ˜80% by weight, if the mixed bacteria is less than 40% by weight can not exhibit the gimactivator function, when the amount exceeds 80% by weight there is a problem that the microorganism is unnecessary waste.

On the other hand, natural mineral extract is a solution containing the essential trace elements extracted from the rhyolite rock in the porous igneous rock containing more than 66% silica (SiO ₂ ), using at least one of pearl rock, Songji rock, obsidian, the same weight ratio Soak in water and heated to 70 ℃ for 1 to 2 days and filtered to obtain a natural mineral extract. The pearlite, Songji rock, and obsidian are all kinds of glassy rhyolites formed by rapid cooling of acidic lava, but the chemical composition is similar, but Songji rock is called pitchstone or bitumen with water content of 4% or more, and obsidian It is also called cydian or obsidian. Natural mineral extract components used in the present invention are as follows.

<Components of Natural Mineral Extracts>  Ingredients ratio Ingredients ratio  Silicate 65.55% Sodium oxide 1.86%  Availability 0.20% Iron oxide 3.06%  High volume 1.61% Aluminum oxide 14.79%  Guyongseong Goto 0.15% manganese 0.05%  Turnover 2.38% zinc 0.01%  Alkaline powder 1.40% Molybdenum 0.006%  Ammonia property 0.005% boron 0.01%  Nitric acid 0.02% titanium 0.22%  Total phosphoric acid 0.02% Base substitution capacity 50.0m.e  Carry quantity 1.50% PH 7.8

Citric acid, used in the present invention, is a polybasic carboxylic acid having a hydroxyl group, and is an acid contained as a free acid in seeds or juices of many plants, also called citric acid, and the chemical formula is C _6. H ₈ O ₇ , soluble in water and ethanol. When microorganisms are cultivated with sugar as a substrate, citric acid accumulates in the culture medium. This is called citric acid fermentation. Several culture methods have been studied, and now 90% of the total amount of citric acid produced in the world is produced by this fermentation method. Is made. As a microorganism that causes citric acid fermentation, black mold is usually used. Citric acid can be obtained by fermenting at about 30 ° C. for 7-10 days in acid (pH 2 to 3). Biochemistry is one of the important organic acids because it is involved in the metabolism of all living things.

The citric acid is preferably used 5 to 30% by weight of the laver active agent of the present invention, if the mixed bacteria is less than 5% by weight organic acid content is lowered, such as antibacterial action can not be expected, 30% by weight of organic acid concentration Is unnecessarily high.

Lactic acid is an organic compound having an asymmetric carbon atom in which four atomic groups of carboxy group, hydroxy group, methyl group and hydrogen are bonded. Also called μ-hydroxypropionic acid, lactic acid and lactic acid, there are isomers such as L-, D- and DL- Used as an acidifier in beverages or as an anti-corruption agent at the beginning of alcoholic fermentation. All of the lactic acid is produced by the fermentation method using all of starch and sugars as raw materials, has a sour taste and is used as an acidulant in fruit extract syrup and soft drink for food, It is also used at the beginning of fermentation to prevent the growth of rot bacteria. Drinking lactic acid inhibits the growth of harmful bacteria in the intestine and improves the function of the intestine.

The lactic acid is preferably used 5 to 30% by weight of the laver active agent of the present invention, like citric acid, if the mixed bacteria is less than 5% by weight organic acid content is lowered, antibacterial action, etc. can not be expected, more than 30% by weight There is a problem that the organic acid concentration becomes unnecessarily high. Acetic acid may be used instead of the lactic acid.

On the other hand, if Kim is planting spores in Haitai Net from late September to late October and growing from November to February, it is usually harvested several times and dried and processed on the land. It is usually from early October to early December. Usually, from early December to late February is called Haetae's growing season. In the present invention, young seaweed (larvae) and mature laver (growing season) are controlled by adjusting the ratio of citric acid and lactic acid or acetic acid of the laver active agent according to the maturity of laver. ) Can be used separately.

The reason is that the organic acid is decomposed into water and weak acid, but when the high concentration of organic acid is added to the laver phase, the survival rate of Haitai decreases, and when used in laver phase during the production of the laver active agent according to the present invention, citric acid 5-15 It may be prepared by weight%, lactic acid or acetic acid 5-15% by weight, and when used in the growing season, may be prepared by citric acid 15-30% by weight, lactic acid or acetic acid 15-30% by weight.

Referring to the method for producing an eco-friendly laver active agent using a microorganism according to the present invention, first, the mixed bacteria containing yeast, lactic acid bacteria, photosynthetic bacteria, Bacillus subtilis, acetic acid bacteria is incubated for one week at 30 ℃ ~ 40 ℃. (S10) . Next, the natural mineral extract obtained by heating one or more porous igneous rocks selected from pearl rock, pine rock, and obsidian with a content of silica (sio2) of 66% or more in 70 wt. Prepare a natural mineral extract solution (S15). At this time, the natural mineral extract pH is adjusted to 7 ~ 8.

Thereafter, the mixed bacterial culture and the natural mineral extract solution are mixed (S20), and the citric acid is mixed with the mixed bacterial culture and the natural mineral extract solution mixture (S30). In addition, lactic acid or acetic acid is mixed with the mixed bacterial culture, natural mineral extract solution, and citric acid mixture to form a mixed medium (S40), and the mixed medium is cultured for 3 to 4 days, and then the laver active agent is shipped. (S50).

< Example >

Yeast, lactic acid bacteria, photosynthetic bacteria, Bacillus subtilis, acetic acid bacteria were cultured in each medium, and each bacteria were uniformly mixed, and then cultured for 1 week at 36 ° C corresponding to human body temperature to obtain mixed bacteria. Next, pearl rock, pine rock and obsidian were respectively ground and mixed uniformly, and the mixed powder was immersed in water of equal weight, heated at 70 ° C. for 2 days, and filtered to prepare a natural mineral extraction solution. Next, the mixed bacteria, natural mineral extract solution, citric acid and acetic acid were mixed in order, and then cultured for 3 days to prepare a laver active agent using the microorganism of the present invention.

< Experimental Example >

The lactic acid treatment agent prepared in the above example was diluted 10 and 20 times in seawater to take 20 liters of seawater and 120m, 5-10 lines, respectively. Comparing the survival rate of the treatment group according to the dilution factor, the results are shown in Table 1 below.

Haitai survival rate No treatment 20-fold dilution 10-fold dilution Control Haitai Survival Rate 50% - - Haitai survival rate - 70% 98%

As shown in Table 1, seaweed not treated with the laver active agent of the present invention is a type of phytoplankton, and the seaweed survival rate was only 50% due to the inhibition of diatoms that inhibit the growth of haetaetae. When the dilution rate of the treatment was 20 times, the Haitai survival rate reached 70%, and when the dilution rate was 10 times, the Haitai survival rate reached 98%.

In the results of the active test using the microorganism according to the present invention in the field (51, Guryong-ho, Hoeyong-ri, Gogun-myeon, Gundo-gun, 43, Nong Hyeon-chang 43, Kim Seok-ju 43, Hyun-min 45, Uisin-myeon) It showed great effects such as elimination and disease prevention, and no marine pollution occurred.

As described above, the present invention has been described with reference to the above embodiments, but the present invention is not limited to the above embodiments, and various modifications may be made without departing from the technical scope and spirit of the present invention. .

S10: mixed bacteria culture step S30: citric acid mixing step
S15: natural mineral extraction step S40: lactic acid or acetic acid mixing step
S20: Mineral Mixing Step S50: Finishing and Shipping Step

Claims (7)

Mixed bacteria in which yeast, lactic acid bacteria, photosynthetic bacteria and subtilis bacteria are mixed; Natural mineral extracts extracted from at least one porous igneous rock selected from pearl rock, songji rock and obsidian; Citric acid; Lactic acid or acetic acid; mixed to form a mixed medium, and eco-friendly laver active agent using microorganisms, characterized in that it was produced by culturing in a microbial medium of 30 ℃ ~ 40 ℃ conditions
The method of claim 1,
Eco-friendly laver active agent using microorganisms characterized in that the mixed bacteria further mixed acetic acid bacteria further
The method of claim 2,
The mixed bacteria are yeast, lactic acid bacteria, photosynthetic bacteria, Bacillus subtilis, acetic acid bacteria, each of the environment-friendly gimyeo treatment agent using a microorganism, characterized in that obtained by culturing in a medium
The method of claim 1
The natural mineral extract is a pH 7 obtained by heating at least one porous igneous rock selected from pearl rock, pine rock, obsidian with a content of silica (SiO ₂ ) of 66% or more in 70 wt. Eco-friendly laver active agent using microorganism, characterized in that ~ 8
The method of claim 1,
The mixed medium is 40 ~ 80% by weight, natural mineral extracts 7 ~ 24% by weight, citric acid 5 ~ 30% by weight, lactic acid or acetic acid 5 ~ 30% by weight of eco-friendly gimyeo treatment agent using microorganisms
The method of claim 5,
The mixed medium is mixed with 5 to 15% by weight citric acid, lactic acid or acetic acid when used in laver of larch, 15 to 30% by weight of citric acid, 15 to 30% by weight of citric acid or lactic acid Eco-friendly seaweed treatment agent using microorganisms, characterized in that mixed with
Culturing the mixed bacteria including yeast, lactic acid bacteria, photosynthetic bacteria, Bacillus subtilis and acetic acid bacteria at 30 ° C. to 40 ° C. for one week; Natural minerals obtained by filtering one or more porous igneous rocks selected from pearl rock, pine rock, and obsidian with a content of silica (sio2) of 66% or more in water of the same weight ratio by heating at 70 ° C. for 1 to 2 days. Preparing an extract solution; Mixing the mixed bacterial culture and the natural mineral extract solution; Mixing citric acid to the mixed bacterial culture and natural mineral extract solution mixture; Mixing lactic acid or acetic acid to the mixed bacterial culture, natural mineral extract solution and citric acid mixture to form a mixed medium; Cultivating the mixed medium 3 to 4 days; eco-friendly gimactivator manufacturing method using a microorganism characterized in that it comprises a

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