WO2017191897A1 - Nutritional agent comprising antioxidant water, and method for producing supply water for plant cultivation, animal rearing, or fish farming, using said nutritional agent - Google Patents

Abstract

The present invention relates to a nutritional agent comprising antioxidant water and a method for producing supply water for plant cultivation, animal rearing, or fish farming, using the nutritional agent, the antioxidant water having a negative (-) oxidation-reduction potential value and thus excellent reducing power, having an oxidation-reduction potential in a range between -172 mV and -1960 mV, preferably having an oxidation-reduction potential value in a range between -460 mV and -1160 mV, and having hydroxyl radical scavenging activity.

Description

Nutritional supplements containing antioxidant water and methods for producing water for plant cultivation, animal breeding or fish farming with the nutrients

The present invention provides a nutrient comprising an antioxidant water having a negative redox potential (ORP) value and having the ability to remove hydroxyl radicals, and a method for producing water for plant cultivation, animal breeding or fish farming with the nutrient. It is about.

Today, the world's population is about 7.3 billion, and the world's population continues to grow. In order to meet the demand for food as the population grows, they face the problem of rapidly increasing the yield or yield per unit area in limited places.

As a solution to these problems, pesticides or chemical fertilizers have been used. However, there is a problem that excessive use of pesticides reduces the microorganisms in the ground, making the land poor, and excessive use of chemical fertilizers causes acidification of the soil.

In addition, livestock farms (barns) and fish farms (fishery farms) continue to use antibiotics and growth promoters to prevent pests and improve yields. These antibiotics and growth promoters greatly reduced the immunity of animals in livestock farms and aquaculture farms, and their excretion was accompanied by severe odors.

Weakened immunity leads directly to livestock disease, and if the disease is a pandemic like mad cow disease, it can lead to unexpected and huge losses. There was a problem in that additional administrative costs are incurred in order to reduce the direct and indirect damages caused by the treatment of the disease and severe odors. In addition, the stress of the animal due to overdose of antibiotics eventually caused indigestion, and incompletely digested feces accumulated in the barn caused a bad odor.

In farms, many fish are dead due to the stress of antibiotics, growth promoters and fungicides, and the dead fish have a negative effect on antibiotics, growth promoters and fungicides. Necessity is emerging.

Accordingly, an object of the present invention is to solve the above problems, and in particular, the hydrogen ions concentration in the water is maintained stable over time, and the nutrients and antioxidants containing alkaline water exhibiting alkalinity, plant cultivation, animal breeding or fish farming water supply It is to provide a method for producing.

To achieve the above technical problem

(A) antioxidant water having a redox potential value of -172 mV to -1960 mV and hydroxyl radical scavenging ability; And

(B) at least one component selected from the group consisting of SiO ₂ , Al ₂ O ₃ , Fe ₂ O ₃ , Na ₂ O ₃ , CaO, MgO, SO ₃ and TiO ₂ and Mn, Cu, Zn, Co, Mo, Be A mixture comprising at least one component selected from the group consisting of Cr, Ni, V, N, C, S, B and P;

As a nutrient comprising:

Wherein the blending weight ratio of the mixture (B) and antioxidant water (A) is from 1: 1000 to 1: 10000.

The antioxidant water includes a redox potential value in the range of -460 mV to -1160 mV and a removal rate of hydroxyl radicals of 51% to 66%.

The mixture is 37.00 to 38.00 wt% SiO ₂ , 0.30 to 0.40 wt% TiO ₂ , 9.00 to 9.50 wt% Al ₂ O ₃ , 0.20 to 0.30 wt% Fe ₂ O ₃ , 39.00 to 40.00 wt% CaO, 11.00 to 11.50 MgO Weight%, 0.30-0.40 weight% MnO, 0.30-0.40 weight% SO ₃ , 0.80-0.90 weight% Na ₂ O and K ₂ O, 0.50 to 1.00 weight% S and 0.20 to 0.30 weight% C.

The nutrient includes a further combination with one or more selected from the group consisting of enzymes and yeasts.

The nutritional supplement further comprises Proxeronine extracted from Noni or Moringa.

The nutrients include those in solid, powder or liquid form.

The nutrient includes treatment with one or more of antagonistic microorganisms and useful microorganisms.

The antagonist microorganisms include Bacillus sp., Streptomyces, Pseudomonas, or a combination thereof.

The useful microorganisms include lactic acid bacteria, yeast, yeast, photosynthetic bacteria, trichoderma, actinomyces, fungi, B / T bacteria, Bacillus thuringiensis, nitrogen Nitrogen fixation bacteria or combinations thereof.

The nutrient includes treatment with extreme microorganisms.

The enzymes include Noni, Moringa, Cabbage, Carrot, Celery, Parsley, Soybean, Crab, Bellflower, Licorice, Ginger, Garlic, Banana Mushroom, Pineapple, Banana, Orange, Mango, Avocado, Apple, Coconut, Kiwi, Papaya, Piña And those derived from one or more selected from the group consisting of colada and lemon.

As a method for producing water for plant cultivation, animal breeding or fish farming,

Producing antioxidant water (A) having a redox potential value of −172 mV to −1960 mV and hydroxyl radical scavenging ability; And

One or more components selected from the group consisting of SiO ₂ , Al ₂ O ₃ , Fe ₂ O ₃ , Na ₂ O ₃ , CaO, MgO, SO ₃ and TiO ₂ and Mn, Cu, Zn, Co, Mo, Be, Cr, Blending a mixture (B) comprising at least one component selected from the group consisting of Ni, V, N, C, S, B and P with antioxidant water (A) in a ratio of 1: 1000 to 1: 10000:

It provides a method comprising a.

The antioxidant water includes a redox potential value in the range of -460 mV to -1160 mV and a removal rate of hydroxyl radicals of 51% to 66%.

The antioxidant water includes those having hydroxyl radical scavenging ability generated in the animal body when drinking.

The mixture is 37.00 to 38.00 wt% SiO ₂ , 0.30 to 0.40 wt% TiO ₂ , 9.00 to 9.50 wt% Al ₂ O ₃ , 0.20 to 0.30 wt% Fe ₂ O ₃ , 39.00 to 40.00 wt% CaO, 11.00 to 11.50 MgO Weight%, 0.30-0.40 weight% MnO, 0.30-0.40 weight% SO ₃ , 0.80-0.90 weight% Na ₂ O and K ₂ O, 0.50 to 1.00 weight% S and 0.20 to 0.30 weight% C.

The feedwater includes treatment with one or more of antagonistic microorganisms and useful microorganisms.

Compost produced by the feces of livestock reared with the nutrient, the compost provides a compost that does not undergo a separate ripening process.

Nutritional supplements comprising antioxidant water of the present invention and plant cultivation, animal breeding or fish farming water supply prepared with the nutrients are environmentally friendly, the existing problems of acidification of the soil, reduction of microorganisms, causing stress in animals, accumulation of excreta Problems can be solved.

In particular, when used for plant cultivation, the improvement of the quality of the fruit and the fruit from the plant, the effect of maximizing productivity, the soil improvement effect due to the strong prevention of serial disturbance (salt deposition, soil acidification), antagonism and useful microbial growth effect, soil pH optimization and It can explosively increase the germination, rooting and growth promoting effects of plants.

In addition, the water supply is anti-aging of the plant by removing the hydroxyl radical in the plant, disease resistance, cold resistance, improved drying resistance, taste of fruit tree, color, storage efficiency, soil nematode depletion effect, soil air permeability, water retention, improvement It has strong basic substitution, which has the effect of degrading the base material and neutralizing residual toxicity such as organic synthetic pesticide antibiotics.

When the water is used for animal breeding, no smell occurs in the manure of livestock, and this manure can be used as a compost without undergoing a separate fermentation process. In this case, the manure can be processed immediately, which not only improves the environment, but also enables the production of high quality compost. The effect of this environmental improvement can reduce harmful organisms such as flies, mosquitoes and insects in the surroundings.

In addition, the antioxidant water contained in the water supply not only facilitates the blood circulation of animals, but also enhances immunity to prevent the occurrence of various pandemic diseases such as influenza and foot-and-mouth disease, resulting in livestock with high quality meat. Can breed.

Furthermore, the odor generated by the feces of the animal is significantly reduced, beneficial bacteria such as lactic acid bacteria, actinomycetes or Bacillus increases in the intestine of the livestock, and stimulates intestinal chorocytes to improve the digestive function. In addition, the animal waste thus produced can be used directly for composting.

When the water supply is used for fish farming, since the farming is made in the aquatic environment, the effect or role of the antioxidant water contained in the water supply is larger and more significant. In particular, the antioxidant water culture method using this water supply is a high-level farming method that is different from the known aquatic farming method, and can be carried out simultaneously from hatching of fish eggs to fry production and farming.

This aquaculture method adds microorganisms, hydrogen water, hexagonal water, minerals, or enzymes and / or yeasts in addition to the water supply (particularly antioxidant water) of the present invention, wherein the added microorganisms not only provide nutrients, but also fish Purifying the water quality by removing ammonia nitrogen from the excreta of the water, hydrogen water and hexagonal water is responsible for removing 51% to 66% of the hydroxyl radicals that cause disease and aging. In addition, the explosive growth of beneficial yeasts (fungi: fungi) and microorganisms of aquatic products by minerals, enzymes, provides abundant food to aquatic products.

Furthermore, the aquaculture method is stable such that the un hatching rate of fish eggs and the mortality rate of fry are less than 5%, and the high density can produce a difference of up to 50 times in the same period compared to the conventional farming because of the high density. Eco-friendly farming technology. In addition, since it does not use antibiotics and fungicides, it is a new concept of eco-friendly farming that only replenishes the amount of evaporated water without periodically changing the water. In addition, by using the aquaculture method, it is possible to farm aquatic products that previously depended solely on sea farming, so that fresh live fish can be shipped regardless of the season, thereby generating high income.

Taken together, the watering promotes the digestion of aquatic organisms and thus the reduction of excreta and degradation of excreta, resulting in the accumulation of excreta, eliminating the underlying cause of water degradation and improving immunity.

Figure 1 shows that chitin-degrading microorganisms inhibit the growth of Rhizoctonia solani (causing moral disease) and Phytophthora capsici (causing plague) pathogenic strains.

Figure 2 is a test report analyzing the dissolved hydrogen concentration of the antioxidant water with time by the gas chromatograph method of Mitsubishi Material Techno Co., Ltd.

3 shows a flowchart of an experiment for measuring radical scavenging ability of antioxidant water.

FIG. 4 shows the results of evaluating hydroxyl radical (OH radical) removal ability of each sample number by spin-trap method using an electron spin resonance (ESR) apparatus.

Figure 5 shows the component analysis table of the saponin content of the ginseng grown for three months using the nutrient of the present invention by the gas chromatograph method.

Figure 6 is an example of an antioxidant water production apparatus equipped with a multiple separation filter.

100: antioxidant water generator

101: raw water inlet

102: antioxidant water outlet

103: upper cap

104: lower cap

110: housing

201 ~ 203: Multiple separation filter

Figure 7 is a photograph of Chinese cabbage grown by manure compost of chickens bred using the nutrient of the present invention.

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to a specific disclosed form, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

As used herein, the term “anti-oxidant water” refers to water having a negative redox potential value and having a function of inhibiting oxidation of a subject.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention.

Figure 1 shows that chitin-degrading microorganisms inhibit the growth of Rhizoctonia solani (causing moral disease) and Phytophthora capsici (causing plague) pathogenic strains.

Referring to FIG. 1, it can be seen that R. solani and P. capsici cannot grow around chitin microorganisms. When the nutrient containing the antioxidant water of the present invention is supplied to such chitin-decomposing microorganisms, the activity of the chitin microorganism increases, which increases the range of inhibiting the growth of pathogens by 30% or more.

Figure 2 is a test report analyzing the dissolved hydrogen concentration of the antioxidant water of the present invention over time by the gas chromatograph method of Mitsubishi Material Techno Co., Ltd.

Referring to FIG. 2, it can be seen that in the case of tap water as a comparative example, the dissolved hydrogen concentration is lower than 0.8 ppb (= µg H ₂ / kgH ₂ O). On the other hand, the anti-oxidant water of the present invention was found to be 520 ppb after 1 hour after collection and 250 ppb after 24 hours after the extraction from the PET bottle sample, and 710 ppb after 5 minutes of installation and 680 ppb after 24 hours in the cup sample. In comparison, it can be seen that dissolved hydrogen is present at a high concentration, and the variation in dissolved hydrogen concentration is not large with time.

Figure 3 shows a flowchart of an experiment for measuring the hydroxyl radical scavenging ability of the antioxidant water of the present invention.

200 mL of 1 mM hydrogen peroxide and 20 μL of DMPO were added to 10 mL of sample water for the first time, mixed with a vortex mixer, suctioned into a quartz glass flat sample tube for ESR, and irradiated with ultraviolet rays for 60 seconds.

Here, hydroxyl radical is generated by irradiating hydrogen peroxide with ultraviolet rays, and 5,5-Dimethyl-1-pyrroline-N-Oxide (DMPO) was used as a spin trapping agent to detect this.

90 seconds after mixing, using an ESR device (JES-FA200, Nippon Denshi), the signal intensity near 336.3 mT of the hydroxyl radical adduct of DMPO (DMPO-OH) was measured, and the radical scavenging rate was calculated by the following equation. (Radical elimination rate (%)-[1- (signal intensity / signal intensity of control)] × 100%).

The intensity of each signal is corrected with Mn ^{2 +} markers. ESR measurement conditions were Modulation frequency, 9.4Ghz; Magnetic field, 337 ± 7.5 mT; Power, 4 mW; Response time, 0.1 sec; Modulation width, 1 × 0.1 mT; Amplitude, 5 × 100; Mn ^{2 +} marker, 600; Sweep time, 60 sec; Temperature, room temperature (20 ° C.) (references: Y. Noda, K. Anzai, A. Mori, M. Kohno, M. Shinmei, L. Packer, “Hydroxyl and superoxide anion radical scavenging activities of natural source antioxidants) using the computerized JES-FR30 ESR spectrometer system ” IUBMB Life , 42 (1), pp. 35-44, 1997).

FIG. 4 shows the results of evaluating hydroxyl radical scavenging ability of each sample number by a spin-trap method using the electron spin resonance (ESR) apparatus.

Referring to FIG. 4, the tap water (tap water) in the range of 333 mT to 341 mT magnetic field was detected by the hydroxyl radicals by the spin trapping agent, whereas the antioxidant water of the present invention was not detected by the hydroxyl radicals in the magnetic field range. Rather, it can be seen that no hydroxyl radical is detected after 1 hour, 2 hours, 3 hours or even 24 hours. Therefore, it can be seen that the effect is maintained for a certain time or more.

Figure 5 shows the component analysis table of the saponin content of the ginseng grown for three months using the nutrient of the present invention by the gas chromatograph method.

The cultivation is carried out 34.899% by weight of alumite of the present invention, 30% by weight of named rock or quartz rock, 15% by weight of calcite, 10% by weight of illite, 10% by weight of mica, 10% by weight of boron and 0.001% by weight of ammonium molybdate A mixture consisting of 0.38 g of antioxidant water and a mixing ratio of 1: 2000, rice bran / ETC (100 g) and perlite (pearlite) covered with sterile artificial soil 25 cm, seedlings (about 0.6 ~ 2.0 g) Were planted and grown, and after 3 months of cultivation, ginsenoside content in ginseng was analyzed.

Referring to Figure 5, the saponin content in the ginseng grown for three months as a nutrient of the present invention ginseng side ginsenoside Rb1 and ginsenoside Rg1 total of 5.20g / 100g, which is generally 6 years It can be seen that the cultivated root ginseng is at least 5.20 times higher than that of 1.00g / 100g.

In consideration of this, ginseng can be grown in a short period of 120 days, without having to take a long period of 4 to 6 years to cultivate ginseng, it is possible to grow ginseng twice a year up to 10 times.

Figure 6 is an example of an antioxidant water production apparatus equipped with a multiple separation filter.

According to one embodiment of the present invention, antioxidant water can be prepared using Patent No. 10-1142040-0000 or Chinese Patent ZL201110388525.3.

Referring to FIG. 6, raw water flows into the raw water inlet 101 and then passes through multiple separation filters 201 to 203 in which a microfiltration membrane, an activated carbon substrate filter, and a ceramic filter are sequentially stacked. The microfiltration membrane may be a microfiltration membrane commonly used in the art. The activated carbon based filter is mixed with 60 to 40 parts by weight of at least one powder selected from zeolite, gold, silver and magnesium, or a mixture thereof at 20 to 40 parts by weight, and then treated with a plasma gas of 60,000 ° C to 70,000 ° C. And then quenched to -200 ° C to -273 ° C under vacuum conditions. The ceramic filter is prepared by adding a powder to a conventional ceramic material, the powder is prepared by heating magnesium with a plasma gas of 60,000 ℃ to 70,000 ℃, and quenched to -200 ℃ to -273 ℃ under vacuum conditions. The produced activated carbon based filter and / or ceramic filter may be paramagnetic.

According to another embodiment of the present invention, the activated carbon based filter is mixed with 20 to 40 parts by weight of at least one powder selected from gold and silver to 60 parts by weight of activated carbon, and then treated with a plasma gas of 60,000 ° C to 70,000 ° C It can then be prepared by quenching from -200 ° C to -273 ° C under vacuum conditions.

The redox potential value of the antioxidant water produced by passing through the multiple separation filter is -172mV to -1960mV. Preferably, it is -460 mV to -1160 mV.

The removal rate of hydroxyl radicals in the antioxidant water is 50% to 70%, preferably 51% to 66%, over time.

According to one embodiment of the present invention, the antioxidant water may remove hydroxyl radicals in the animal body when drinking.

The hydroxyl radical removal includes the provision of electrons and / or hydrogen ions by antioxidant water having a negative redox potential.

According to one aspect of the present invention, a nutrient comprising a mixture and antioxidant water is included. According to one embodiment of the invention, the mixing ratio of the mixture and antioxidant water is 1: 1000 to 1: 10000. Preferably, 1: 1000 to 1: 4000.

The mixture is 30 to 40% by weight of alunite, 25 to 35% by weight of named or quartz porphyry, 10 to 20% by weight of calcite, 5 to 15% by weight of illite (sericite) may comprise a mixture comprising 5 to 10% by weight, boron 0 to 1% by weight and ammonium molybdate 0 to 1% by weight.

Preferably a mixture comprising 34 to 35% by weight alum, 30% by weight or quartzite rock, 15% by weight calcite, 10% by weight illite, 10% by weight mica, 0.1% by weight boron and 0.001% by weight ammonium molybdate It includes.

According to another aspect of the invention, the mixture is one or more components selected from the group consisting of SiO ₂ , Al ₂ O ₃ , Fe ₂ O ₃ , Na ₂ O ₃ , K ₂ O, TiO ₂ and CaO and Mn, Cu, One or more components selected from the group consisting of Zn, Co, Mo, Be, Cr, Ni, V, N, C, S, B and P.

Wherein the mixture is SiO ₂ 37.00 ~ 38.00 wt%, TiO ₂ 0.30 ~ 0.40 wt%, Al ₂ O ₃ 9.00 ~ 9.50 wt%, Fe ₂ O ₃ 0.20 ~ 0.30 wt%, CaO 39.00 ~ 40.00 wt%, MgO 11.00 ~ 11.50 wt%, MnO 0.30-0.40 wt%, SO ₃ 0.30-0.40 wt%, Na ₂ O and K ₂ O 0.80-0.90 wt%, S 0.50-1.00 wt% and C 0.20-0.30 wt%.

The results of chemical analysis of the mixture according to one embodiment of the present invention are shown in Table 1.

ingredient	weight%
SiO 2	37.79
TiO 2	0.35
Al 2 O 3	9.26
Fe 2 O 3	0.25
CaO	39.12
MgO	11.09
MnO	0.36
S =	0.78
SO 3	0.35
Na 2 O + K 2 O	0.85
C	0.21
Oxygen adjustment (corr.)	-0.41
Total	100.00

According to one aspect of the invention, the nutrient may be further combined with one or more selected from the group consisting of enzymes, yeasts and natural minerals.

The enzymes include Noni, Moringa, Cabbage, Carrot, Celery, Parsley, Soybean, Crab, Bellflower, Licorice, Ginger, Garlic, Banana Mushroom, Pineapple, Banana, Orange, Mango, Avocado, Apple, Coconut, Kiwi, Papaya, Piña It may be derived from one or more selected from the group consisting of colada and lemon.

The enzyme is a non-life catalytic material that is not probiotics. Therefore, it can contribute to the enhancement of useful microorganisms regardless of the environmental conditions, and thus can have the same effect not only in the cold but also in the subtropical region.

Such yeasts include sperm fungi, basidiomycetes and / or incomplete fungi.

According to one embodiment of the present invention, the yeast is genus Schizosaccharomyces, genus Hansenia spora, genus Saccharomycodes, genus Saccharomyces Genus Pichia, Hansenula genus, Debaryomyces genus, Lipomyces genus, Kluyveromyces genus, Cryptococcus genus genus Genus Cryptococcus), genus Torulopsis, genus Kloeckera, genus Candida, genus Rhodotorula, and / or genus Tricosporon.

The natural mineral may be silicic acid (Si ₂ O ₂ ), calcium carbonate (CaCO ₃ ), or the like.

According to one embodiment of the present invention, the nutritional agent may include Proxeronine extracted from Noni and / or Moringa, or may comprise an extreme microorganism cultured with Progeronine.

The progeronin is activated by Xeronine by an enzyme called proneronase, which is involved in the cell regeneration process.

Geronine is a kind of alkaloid extracted from plants but not microorganisms or enzymes, also called alkaloid Xeronine. Alkaloid zeroin is a type of cell growth accelerator that plays a role in promoting the enzymatic activity of cells.

This geronine stimulates enzymatic activity in microorganisms and promotes faster cell growth, thereby overcoming environmental conditions limited by specific environments. For example, when supplying zeroin to microorganisms that were producing energy through fermentation in the anaerobic state, they discovered that the microbes produce energy through respiration. Breathing is more energy efficient than fermentation, resulting in faster microbial growth and vigorous activity.

In addition, geronine activates more than 1500 enzymes in the human body, and binds vitamins, minerals, antioxidants, and serotonin in the body to restore cellular functions such as regenerating damaged cells to make normal cells, and oxygen and nutrients to the blood. It is a catalytic activity that is essential for cellular activity.

In addition, this geronine was found to have an effect of increasing the activity of both anaerobic and aerobic microorganisms.

Extreme microorganisms (Extremophile) cultured with the progeronin are thermophile, Pyrchrophile, Alkaliphile, Acidophile, Halophile, Barophile, Rock fungus (Endolith), Oligotroph, Toxitolerant and / or Xerotolerant.

When the extreme microorganism is treated with the nutrient of the present invention, even if there is no separate environmental composition, the activity of the extreme microorganism increases exponentially.

According to one embodiment of the invention, the nutrient is in solid, powder or liquid form. Preferably in liquid form.

According to one aspect of the invention, the nutrient may be treated with antagonistic microorganisms and / or useful microorganisms.

In general, soil contains Bacillus, Clostridium, Pseudomonas, Micrococcus, Actinomyces, Streptomyces, Penicillium, Aspergillus. ) Microorganisms belonging to

As such, the type and amount of microorganisms in the soil are affected not only by soil, temperature, moisture, vegetation presence and depth, but also by other microorganisms around them.

Here, microorganisms exist that inhibit the growth of pathogens by secreting various substances that inhibit the growth of other microorganisms. Such microorganisms are called antagonistic microorganisms. These antagonists consume various nutrients faster than pathogens, depleting essential nutrients for pathogens, and limiting the growth of pathogens by limiting the space where pathogens can live. As a result, the plant can be protected from pathogens.

Some of these antagonistic microbes secrete chitinase, which can break down the chitin that forms part of the cell wall of the pathogen, which breaks down the cell wall of the pathogen's envelope, which poses a significant threat to the pathogen. Can be.

The antagonist microorganism may include Bacillus, Streptomyces, Pseudomonas. Preferably Bacillus subtilis, Streptomyces sp., Pseudomonas putida (Pseudomonas putida).

Pathogens inhibited by the antagonistic microorganisms include Pythium ultimum (induced nalokemia), Fusarium solani (induced root rot), Fusarium oxysporum (induced wilting disease), Lai Rhizoctonia (induced mozzarella), Fusarium moniliforme (induced wilting), Alternaria panax (induced spots), Coletotricum gloesporioides (induced leaf anthrax) ), Penicillium expansum (induced blue fungal disease), Stemphylium sp. (Induced leaf blight), Septoria, induces rust, Puccinia , Phytophthora capsici, plague, Pratylenenchus sp. And Tylennchus (causing root rot of plants and crops). Rihok nematode (Meloigogyne sp.), And the like cyst nematode (cystnematode).

In addition, there are microorganisms that break down organic matters or provide nutrients directly or indirectly to facilitate the intake of organic matters to surrounding plants. These microorganisms greatly help the growth of surrounding plants. The microorganisms that play this role are called effective microorganisms (EM).

When the nutrient containing the antioxidant water of the present invention is supplied to the useful microorganism, the rate of decomposition of organic matter increases, and ammonia (NH ₃ ), which is a nitrogen form fixed in soil by nitrogen-fixed bacteria, increases.

The useful microorganism is Bacillus (Bacillus sp., Also known as Bacillus subtilis), lactic acid bacteria (Lactic acid bacteria), yeast (yeast), photosynthetic bacteria (Photo synthetic bacteria), Trichoderma (Prichoderma), Pseudomonas (Pseudomonas sp.), Actinomycetes (Actinomyces), fungi, Bacillus thuringiensis, Nitrogen fixation bacteria, or a combination thereof.

When the antagonist microorganisms and / or useful microorganisms are treated with the nutrients of the present invention, the activity of the microorganisms themselves is increased by 30 to 60%, and as a result, the growth of surrounding plants is increased by 30% or more.

According to one aspect of the invention, the antagonist and the useful microorganism may be identical.

According to one aspect of the present invention, there is provided a compost produced by feces of livestock raised with the above nutrient.

The compost does not smell bad, contains a certain amount of water and organic matter, can be used as a compost directly without undergoing a separate aging process.

The livestock is preferably cattle, pigs and / or chickens.

According to one aspect of the present invention, there is provided a method for producing a water for plant cultivation, animal breeding or fish farming.

The method includes producing antioxidant water having a redox potential value of -172 mV to -1960 mV and hydroxyl radical scavenging ability.

The antioxidant water may be produced using Patent No. 10-1142040-0000 or Chinese Patent ZL201110388525.3 as mentioned above, see Example 1 for a specific process.

The redox potential value of the antioxidant water is preferably -460 mV to -1160 mV. The removal rate of hydroxyl radicals in the antioxidant water is 50% to 70%, preferably 51% to 66%, over time.

In addition, the method comprises at least one component selected from the group consisting of SiO ₂ , Al ₂ O ₃ , Fe ₂ O ₃ , Na ₂ O ₃ , K ₂ O, TiO ₂ and CaO and Mn, Cu, Zn, Co, Mo, Combining the antioxidant water with a mixture comprising at least one component selected from the group consisting of Be, Cr, Ni, V, N, C, S, B and P in a ratio of 1: 1000 to 1: 10000. .

The mixture is 30 to 40% by weight of alunite, 25 to 35% by weight of named or quartz porphyry, 10 to 20% by weight of calcite, 5 to 15% by weight of illite (sericite) may comprise a mixture comprising 5 to 10% by weight, boron 0 to 1% by weight and ammonium molybdate 0 to 1% by weight.

Preferably a mixture comprising 34 to 35% by weight alum, 30% by weight or quartzite rock, 15% by weight calcite, 10% by weight illite, 10% by weight mica, 0.1% by weight boron and 0.001% by weight ammonium molybdate It includes.

According to one embodiment of the invention, the mixture has a component ratio of Table 1. Specifically, the mixture is SiO ₂ 37.00 to 38.00 wt%, TiO ₂ 0.30 to 0.40 wt%, Al ₂ O ₃ 9.00 to 9.50 wt%, Fe ₂ O ₃ 0.20 to 0.30 wt%, CaO 39.00 to 40.00 wt%, MgO 11.00-11.50 weight%, MnO 0.30-0.40 weight%, SO ₃ 0.30-0.40 weight%, Na ₂ O and K ₂ O 0.80-0.90 weight%, S 0.50-1.00 weight% and C 0.20-0.30 weight% .

The method includes the step of combining the antioxidant water and the mixture in a ratio of 1000: 1 to 10000: 1. Preferably, the compound is blended in a ratio of 1000: 1 to 4000: 1.

The feed water produced by the method can be used with antagonistic microorganisms and / or useful microorganisms. The antagonist microorganisms and useful microorganisms include the above-mentioned contents regarding the antagonist microorganisms and the useful microorganisms.

Example

Example  One. Antioxidant  Manufacture and Redox potential  Measure

Water is first passed through a membrane or filter selected from a microfiltration membrane, an activated carbon substrate filter, and a ceramic filter to remove impurities, and the redox potential of the water is lowered from -172 mV to -1960 mV, followed by a second microfiltration membrane, activated carbon substrate. A filter, a ceramic filter, passed through a multiple separation filter sequentially stacked inside the cartridge filter housing. As a result, an antioxidant water was prepared in which dissolved hydrogen concentration was increased and finely divided water molecule clusters.

Here, the multiple separation filters 1 to 4 configured in (1) to (4) below are plasma nanopowders according to block type, spherical shape, or all types of raw materials (PC, PP, PE, ABS, etc.) and the compound molding after mounting to prepare antioxidant water. Using tap water as a comparative example, the physical properties measured at room temperature of the antioxidant water thus prepared are summarized in Table 2 below.

(1) The microfiltration membrane 1 and the activated carbon based filter 1 were laminated in this order to constitute a multiple separation filter 1.

(2) The microfiltration membrane 1 and the activated carbon based filter 2 were laminated in this order to constitute a multiple separation filter 2.

(3) The microfiltration membrane 1, the activated carbon based filter 1, and the ceramic filter 1 were laminated in this order to constitute a multiple separation filter 3.

(4) The microfiltration membrane 1, the activated carbon based filter 2, and the ceramic filter 1 were laminated in this order to constitute a multiple separation filter 4.

	Temperature (℃)	pH	Oxidation potential (mV)	Dissolved oxygen (ppm)	Dissolved hydrogen (ppb)
Comparative Example: Tap Water	15.3	7.3	+715	10.2	2.3-2.3
(One)	14.8	8.3	-172	9.3	250-320
(2)	15.2	8.2	-460	8.7	280-420
(3)	15.2	8.4	-1160	7.9	890-976
(4)	14.7	8.5	-1960	7.1	1030-1260

It can be seen that the antioxidant water using the multiple separation filter configured in (1) to (4) has a redox potential of -172 mV to -1960 mV.

Example  2. The nutrient of the present invention With antioxidant water  Formulated and used in barns (dairy farms)

A mixture of 34.899% by weight of alumite, 30% by weight of named rock or quartz rock, 15% by weight of calcite, 10% by weight of illite, 10% by weight of mica, 0.1% by weight of boron and 0.001% by weight of ammonium molybdate And a nutrient compounded at a compounding weight ratio of 1: 1000 were sprayed into the house (using 0.9 L of dilutions per square foot).

As a result of comparing the amount of excretion accumulated during the week before and after the spraying, it was confirmed that the amount of accumulation decreased about 60% after using the nutrient and antioxidant water than before. As a result, the odor due to the excreta in the barn is also significantly reduced.

This indicates that the nutrient of the present invention can be used as a water supply for environmental beautification in the barn.

Example 3 Use of the Nutrient of the Invention as Water Supply in a Shrimp Farm

37.79 wt% SiO ₂ , 0.35 wt% TiO ₂ , 9.26 wt% Al ₂ O ₃ , 0.25 wt% Fe ₂ O ₃ , Ca. 39.12 wt%, MgO 11.09 wt%, MnO 0.36 wt%, SO ₃ 0.35 wt% A nutrient containing a mixture of%, Na ₂ O and 0.85 wt% K ₂ O, 0.78 wt% S and 0.21 wt% C in antioxidant water was sprayed onto the farm.

Specifically, one embodiment of spraying the nutrient of the present invention on the basis of 130,000 tons of seawater in the shrimp farm is as follows.

Dosing time	General usage	Meal Feeding	Interval	Total dose of nutrients to 130,000 tons of seawater
Initial administration	2.5 ~ 5PPM	5PPM	7 days	16 kg
2nd administration	2.5 ~ 5PPM	5PPM	7 days	16 kg
3rd administration	1PPM	2PPM	10-15 days	7 kg
4th administration	1PPM	2PPM	10-15 days	7 kg
5th administration	1PPM	1PPM	15-20 days	7 kg

Before and after the application, one liter of seawater at the top and bottom of the shrimp farm was collected. The amount of natural virus was compared with seawater collected from the upper layer, and the amount of excreta accumulated with seawater collected from the bottom.

The results showed that the amount of natural virus after nutrient application containing antioxidant water was reduced by 90% compared to before application, and the accumulated excretion was reduced by more than 85% compared to before application.

As a result, the survival rate of shrimp (0.03g) was 99%, and after 3 months of farming, 25g ~ 30g barley shrimp could be harvested.

Example 4 Use of Pig Nutrition after Mixing the Nutrient of the Invention with Microorganisms

0.25 g of a mixture of 34.899% by weight of alumite, 30% by weight of named rock or quartzite rock, 15% by weight of calcite, 10% by weight of illite, 10% by weight of mica, 0.1% by weight of boron and 0.001% by weight of ammonium molybdate, Bacteria 4g and 6g of photosynthetic microorganisms were mixed with antioxidant water and nutritional supplements of 1: 9000 to 1: 10000 and supplied to commercial pigs, and the antioxidant water was further sprayed in pigs.

As a result, not only the odor due to pig droppings was significantly reduced, but also resistance to streptococcosis and foot and mouth disease, which are fatal diseases for pigs, was increased. In addition, the pigs fed the nutrient of the present invention the weight gain measured over the same period (one month) due to the improvement of digestive function increased by more than 20% compared to the normal pig, during this time the accumulation of pig excretion is about 60% or more Decreased.

In addition, due to environmental improvements, the number of harmful insects capable of transferring pathogens such as flies and mosquitoes was reduced by more than 95% based on 400m ² .

Example  5. Cultivation of cabbage, etc. as chicken manure compost of chickens raised using the nutrient of the present invention

The nutrient containing the antioxidant water of the present invention was supplied to chickens raised in poultry farms. One week after the start of feeding, chicken feces were observed. As a result, it was confirmed that no peculiar odor generated in the system powder was contained, and that appropriate moisture and nutrients were contained.

This poultry was used directly as a compost in the field in which the cabbage, tomato, strawberry, pepper, pumpkin and garlic were grown without any further aging process. As a result, the cabbage cultivated by the compost was 8kg (see Fig. 7), more than twice the size than the average weight of the cultivated cabbage 3 ~ 4kg. In the case of tomatoes and strawberries, the sugar content measured at the time of cultivation was 12 brix, which was about 2 times higher than the average tomato sweetness of 6 brix. In addition, pepper and zucchini cultivated using the compost was increased by 5 times and 2 times, respectively, garlic was about twice the size.

Claims (17)

1. (A) antioxidant water having a redox potential value of -172 mV to -1960 mV and hydroxyl radical scavenging ability; And

   (B) at least one component selected from the group consisting of SiO ₂ , Al ₂ O ₃ , Fe ₂ O ₃ , Na ₂ O ₃ , CaO, MgO, SO ₃ and TiO ₂ and Mn, Cu, Zn, Co, Mo, Be A mixture comprising at least one component selected from the group consisting of Cr, Ni, V, N, C, S, B and P;

   As a nutrient comprising:

   Wherein the blending weight ratio of the mixture (B) and the antioxidant water (A) is 1: 1000 to 1: 10000.
2. The nutrient of claim 1, wherein the antioxidant water has a redox potential value in the range of -460 mV to -1160 mV and a removal rate of hydroxyl radicals of 51% to 66%.
3. According to claim 1, wherein the mixture is SiO ₂ 37.00 to 38.00 wt%, TiO ₂ 0.30 to 0.40 wt%, Al ₂ O ₃ 9.00 to 9.50 wt%, Fe ₂ O ₃ 0.20 to 0.30 wt%, CaO 39.00 to 40.00 wt% %, MgO 11.00-11.50 weight%, MnO 0.30-0.40 weight%, SO ₃ 0.30-0.40 weight%, Na ₂ O and K ₂ O 0.80-0.90 weight%, S 0.50-1.00 weight% and C 0.20-0.30 weight% Nutritional agent comprising a.
4. The nutrient of claim 1, wherein the nutrient is further combined with at least one selected from the group consisting of enzymes and yeasts.
5. The nutrient of claim 1, wherein the nutrient further comprises Proxeronine extracted from Noni or Moringa.
6. 6. A nutrient according to any one of claims 1 to 5, wherein said nutrient is in solid, powder or liquid form.
7. 7. The nutrient of claim 6, wherein said nutrient is treated with at least one of antagonistic microorganisms and useful microorganisms.
8. According to claim 7, wherein the antagonist microorganisms (Bacillus sp.), Streptomyces (Streptomyces), Pseudomonas (Pseudomonas), or a combination thereof.
9. According to claim 7, Lactic acid bacteria, yeast, yeast, Photosynthetic bacteria, Trichoderma, Actinomyces, fungi, B / T bacteria Bacillus thuringiensis), Nitrogen fixation bacteria, or a combination thereof.
10. 7. The nutrient of claim 6, wherein said nutrient is treated with an extreme microorganism.
11. The enzyme of claim 4, wherein the enzyme is noni, moringa, cabbage, carrot, celery, parsley, soybean, reddock, bellflower, licorice, ginger, garlic, banana mushroom, pineapple, banana, orange, mango, avocado, apple, coconut And a nutrient derived from one or more selected from the group consisting of kiwi, papaya, piña colada and lemon.
12. As a method for producing water for plant cultivation, animal breeding or fish farming,

    Producing antioxidant water (A) having a redox potential value of −172 mV to −1960 mV and hydroxyl radical scavenging ability; And

    One or more components selected from the group consisting of SiO ₂ , Al ₂ O ₃ , Fe ₂ O ₃ , Na ₂ O ₃ , CaO, MgO, SO ₃ and TiO ₂ and Mn, Cu, Zn, Co, Mo, Be, Cr, Blending a mixture (B) comprising at least one component selected from the group consisting of Ni, V, N, C, S, B and P with antioxidant water (A) in a ratio of 1: 1000 to 1: 10000:

    How to include.
13. The method of claim 12, wherein the antioxidant water has a redox potential value in the range of −460 mV to −1160 mV and a removal rate of hydroxyl radicals of 51% to 66%.
14. The method of claim 13, wherein the antioxidant water has a hydroxyl radical scavenging ability generated in the animal body when drinking.
15. The method of claim 12, wherein the mixture is 37.00 to 38.00 weight% SiO ₂ , 0.30 to 0.40 weight% TiO ₂ , 9.00 to 9.50 weight% Al ₂ O ₃ , 0.20 to 0.30 weight% Fe ₂ O ₃ , 39.00 to 40.00 weight CaO %, MgO 11.00-11.50 weight%, MnO 0.30-0.40 weight%, SO ₃ 0.30-0.40 weight%, Na ₂ O and K ₂ O 0.80-0.90 weight%, S 0.50-1.00 weight% and C 0.20-0.30 weight% Method comprising a.
16. 13. The method of claim 12, wherein said feedwater is treated with at least one of antagonistic microorganisms and useful microorganisms.
17. Compost produced by the excreta of livestock raised with nutrients according to claim 6, wherein the compost is not subjected to a separate aging process.

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