JP2000023565A - Raising production of plant and organism utilizing water afforded by high-voltage application discharge - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for the raising production of plants and organisms, intended to activate the growth of animals/plants and bring the oxidation-reduction potential level in organisms during growing and after grown to a minus value of greater absolute value or that close thereto so as to suppress or erase active oxygen considered as a source of inducing diseases, promote food production involving reduction rather than oxidation and the healthy growth of plants, and thereby contribute to the circulating action of the global environment safe in the ecological system for humans, animals and plants. SOLUTION: This method for the raising production of animals and plants comprises the following practice: a water tank 1 made of shield material with electrical insulation is filled with water which is equipped with a net-shaped high-voltage current collector plate 74 with a plurality of projected bar shapes crossed with one another and a high-voltage discharge wire 3 with a plurality of projected bar shapes so as to stand against each other, a high voltage is then applied between the current collector plate 4 and the discharge wire 3 to effect electric discharge and afford high-voltage-applied water 6 (and optionally subjected to filtration and heat treatment) which, in turn, is immersed with fishes-and-shellfishes, fruits, vegetables, plants, or other foods; or such high-voltage-applied water is conferred on organisms to preserve the oxidation-reduction potential level in the organisms during growing and after grown at a minus value of greater absolute value or that close thereto.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of disposing a high-voltage current collector and a high-voltage discharge electrode in water filled in a container made of an insulating shield material such as acrylic, and applying a high voltage to cause a discharge. The oxidation-reduction potential value of the high-voltage applied water is set to a state where the absolute value is more negative or close to negative,
Biological (human, animal,
The present invention relates to a method of growing or using a variety of plants and organisms according to claims 1 to 12 for growing seafood and plants including trees, vegetables and fruits.

[0002]

2. Description of the Related Art At present, tap water purification methods carried out in local governments and the like use some ozone disinfection and sterilization methods, but most local governments take water from rivers, lakes and the like. In a sand basin, after the sand is precipitated, a chemical such as aluminum sulfate is added to form a turbid mass.In the filtration process, small turbidity and bacteria are removed, and then chlorine is added to disinfect and sterilize. It is generally supplied as tap water. The tap water, mountain water, groundwater and the like are used for growing the plants and organisms described in the claims. However, due to the pollution of the global environment, there is a concern that humans may ingest plants and vegetables grown in these waters and affect their health.

[0003] In recent years, air pollution due to destruction of the natural environment, pesticide residual vegetables, chemical processed products, electromagnetic waves and other external factors cause intrusion of pollutants into the human body, and internal stress due to psychological factors and various other factors. Health has been impaired by such factors. In the body, active oxygen is produced to remove pollutants and tries to maintain health as an immune function. However, active oxygen generated in the body more than necessary (excess active oxygen) destroys healthy cells and causes disease.

[0004] Oxidation is a phenomenon of electron detachment from the atomic level, that is, disease or aging. Corruption is a state in which electrons have been deprived and a state in which electrons have changed drastically. Iron rusts because of oxidation reactions, and when rusted iron is reduced, it returns to its original state. Redox reactions are occurring in the human body. Active oxygen is attracting attention as a substance that promotes oxidation.

[0005] The situation of such active oxygen in the body can be known by measuring the oxidation-reduction potential value in the body. If the human body is healthy, the body is kept alkaline, and as a result, health is maintained by natural healing power. However, recently, anxiety about food is spreading due to residues of pesticides, pollution, and the like on fruits, vegetables, seafood, and the like.

Therefore, a dietary life in which the absolute value of the oxidation-reduction potential value in the body becomes more or less negative, that is, a life without stress and ingestion of foods that have a high activity of suppressing and eliminating active oxygen is kept in mind. By doing so, you can maintain your health. It is important to proactively create situations that lead to stress relief due to the mental and peacefulness of water and food, as well as flowers, plants and pets, which are vital for living things.

[0007] Humans are harnessed by the benefits of nature. Due to environmental pollution, the land of food production, which is important for humans and living beings, is polluted by chemical fertilizers, soil improvers such as lime, acid gas organic, and various types of fuels. The rain oxidizes Shiyang,
In the above-mentioned oxidation, an acid or a gas substance that has lost the electron deprives the negative electrode of soil water or the atmosphere, and produces a positive electron, that is, an oxidation state. Effective bacteria do not propagate in such water and soil, harmful gas is generated, and the soil becomes hard soil like concrete, and food production and plant growth are jeopardized. And soil pollution is the circulatory action of the global environment,
It will lead to groundwater, river and seawater pollution.

[0008]

SUMMARY OF THE INVENTION Accordingly, the present invention provides an activity for the growth of animals and plants by utilizing high-voltage-applied water obtained by applying a high voltage to discharge, thereby increasing the growth process and growth. By making the oxidation-reduction potential value of the treated organism negative or near negative with a greater absolute value, it suppresses and eliminates active oxygen, which is the cause of disease induction, and produces foods that reduce oxidation and healthy plants. It is intended to promote safe growth in ecosystems such as humans, animals and plants by promoting natural growth.

[0009]

That is, the present invention has been made to solve the above-mentioned problems, and is intended to be immersed in water filled in a tank made of an insulating shield material such as acrylic, and to be discharged to a current collector plate. Arrange the electrodes, discharge by applying a high voltage, the high voltage applied water obtained by the discharge, or further filtration,
By immersing or giving an organism (humans, animals, seafood and plants including trees, vegetables, fruits, etc.) to the heat-treated high-voltage-applied water, the growth process of the organism and the oxidation-reduction potential value after the growth can be measured. A plant using water obtained by high-voltage application discharge, characterized in that it is used in a negative or near negative state having a larger absolute value, suppressing the active oxygen, producing food to be eliminated, and reducing the oxidation. And a method of growing and growing organisms.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The gist of the present invention will be described below with reference to the drawings. FIGS. 1A and 1B are flowcharts showing a method for growing plants and organisms using water obtained by applying a high voltage produced according to the present invention, and FIG. It is explanatory drawing which shows an example of the flooded high voltage application water production apparatus circuit. FIG. 3 shows a plurality of protruding rod-shaped high-voltage discharge wires 3 which become high-voltage application electrodes 2 connected to a high-voltage generator 5 included in the high-voltage application water production apparatus.
FIG. 4 shows a net-shaped high-voltage current collector 4 having a plurality of projecting rods.
It is. FIG. 5 is an explanatory view in which a high-voltage current collector plate and a high-voltage discharge wire included in the high-voltage applied water production device are arranged. In FIG. 2, a water tank 1 made of an insulating shield material filled with water and a high voltage application electrode 2 installed at the center of the water tank 1 are passed by a high voltage generator 5 to a high voltage discharge line 3 via a high voltage.
The high voltage collector plate 4 installed near the side wall in the water tank 1 is passed by a high voltage by a high voltage generator 5. High voltage generator 5
From water 6 obtained by applying a high voltage between the high voltage discharge wire 3 and the high voltage
It is.

In order to carry out the growth production method of the present invention, first,
A high-voltage discharge wire 3 connected to a high-voltage application electrode 2 and a high-voltage current collector 4 are arranged in a water tank 1 of a high-voltage application water production apparatus as shown in FIG. Fill, with the water to be treated. Then, when the high voltage generator 5 generates a high voltage, a high voltage is applied between the high voltage discharge line 3 connected to the high voltage application electrode 2 and the high voltage collector plate 4 to discharge. As a result, suspended matter such as iron rust and dust mixed in the water in the water tank 1 is adsorbed by the high-voltage current collector plate 4, and the water obtained by applying a high voltage and discharging has an absolute oxidation-reduction potential value. The value of water 6 obtained by applying a high voltage, which is a negative value or a value close to the negative value, which is larger
Is purified. As a result, the method for growing and growing plants and organisms of the present invention was implemented.

Further, the water 10 obtained by applying the above high voltage and high voltage is filtered and sent to a heat treatment apparatus (not shown).
When heat-treated at a temperature of about 2 ° C. that does not cause boiling, high-quality water that is hardly oxidized is obtained.

It should be noted that water having a redox potential value of minus or close to minus, which has a greater absolute value, has a high function of suppressing and eliminating active oxygen, which causes disease, as described above. Has proven. The measurement of the oxidation-reduction potential measures only the reaction potential of the PH value with hydrogen ions, while the oxidation-reduction potential value measures the mixed potential expressed as the weighted average of the respective reaction energies of ions and molecules. Therefore, body fluids of animals and plants containing bioactive substances such as enzymes are also expressed as redox potentials. Since the oxidation-reduction reaction is promoted by the enzyme, the oxidation-reduction potential of the body fluid also helps to know the activity of the enzyme.

[0014] Reduction refers to the reverse process of oxidation. The original meaning is to restore the oxidized substance, but chemically the chemical changes that the compound loses oxygen, the addition of hydrogen, the decrease in the positive valence of the metal, and the increase in the negative valence. Is also called reduction. Generally, a reaction in which an atom or a compound obtains an electron is called reduction. That is, oxidation and reduction have a front and back relationship, and whenever oxidation is performed in a certain reaction system, reduction always occurs at the same time. Thus, an oxidizing agent refers to a substance that can accept electrons, and a reducing agent refers to a substance that can donate electrons. If the oxidizing agent (Oxidant) and the reducing agent (Reductant) are abbreviated to Ox and Red, respectively, the relationship is expressed by the following equation. Here, e represents one electron, and n is a positive integer.

When a platinum electrode including a redox potential pair and a hydrogen electrode are inserted, a potential difference is generated between the two electrodes. This is referred to as an oxidation reduction potential (Oxidation Reduction P).
Otential (abbreviated as ORP). OR
P is defined as follows. Here, E: redox potential (V) Eo: standard redox potential (V) R: gas constant T: absolute temperature n: valence of ion F: Faraday constant [Ox]: redox agent (mol / l) [Red]: Reducing agent concentration (mol / l) Eo is E when [O ［] = [Red], and is a constant for the system.

Next, a method of growing and growing plants and organisms using water obtained by immersion in filled water and discharging by applying a high voltage is shown in FIG.
This will be described with reference to FIG. In FIG. 1-a, a method of making rice seedlings (step S-1), a method of making vegetable seedlings (step S-2), a method of making planting and bonsai (step S-1)
FIG. 3C is a diagram illustrating the use of the seedling making and growing method of the fruit seedling making method (step S-4) and the growing method of fish and shellfish (step S-5). Also, in FIG. 1B, a method for producing a flower seedling (step S-6), a method for producing a flower bulb (step S-7), a method for growing chickens and birds (step S-8),
Various objects to be used by the method of growing plants and animals using water obtained by applying high-voltage discharge as the method of growing livestock and animals (Step S-9) and the method of growing mushrooms (S-10) The oxidation-reduction potential value of becomes a minus value or a value close to minus, which is larger in absolute value, suppresses and eliminates oxidation, and greatly contributes to the preservation of the global environment as well as food such as vegetables, fruits, livestock, etc. become.

[0017]

【Example】

[Table-1] The following shows examples of oxidation-reduction potential values (mv) of vegetables, rice, poultry, and the like harvested by the method of growing plants and organisms using water obtained by applying high-voltage discharge according to the present invention.

An example of a method of producing and growing sprout per 100 are by a germinator in producing rice seedlings by applying high voltage water (step S-1) An example of a method of producing rice seedlings will be described. The first use of the high-voltage applied water is as follows.
0l is soaked at a water temperature of 13 to 15 degrees for about 10 to 14 hours. For the second use of high-voltage applied water, 100 l per 100 ares is used for sprouting using a germinator. Assuming that the cumulative temperature of the sprouting is 6 days, the cumulative temperature is 100 degrees. The breakdown of the integrated temperature is, for example, 15 degrees x 4 days, 20 days
Degrees x 2 days, for a total of 100 degrees. The third application of high-voltage application water is to seed the seedling box with the seeds of potatoes (roots) that germinate in the germinator at the time of germination of 1 mm or less. High voltage applied water can be saved by reusing water without throwing it away. Normally, new high-voltage applied water is 20 times per 100 ares for two uses.
The use of 0 l greatly enhances the growth of rice. The redox potential value of the rice during the growing process and after harvesting becomes a negative value or a value close to the negative value, which is larger in absolute value, and the food has a high function of reducing. Further, the third use of the high-voltage application water is performed by adding an additional 100 l of water per 100 ares at the first leaf stage or at the time of the middle seedling (the number of leaves is 3 to 4 and the seedling height is 15 to 20 cm). The growth of rice is further improved, the stem during growth is thicker, the rice does not fall down, and the redox potential value of rice after harvesting has a negative value close to the absolute value or a value close to negative, which is a remarkable result It is.

For example, an example of a method for cultivating vegetables and fruits (step S-2) will be described. A description will be given of tomatoes produced by cultivation using high-voltage-applied water such as tomatoes, peppers, pumpkins, strawberries, melons, lettuce, spinach, and Chinese cabbage. In tomatoes,
The first spraying of high-voltage applied water is 2 per seedling.
00 cc, and the second application of high-voltage applied water was performed at a time of planting the seedlings in soil and hydroponics at a rate of 200 per pot of seedlings.
Water the cc. The third time is to give 100 cc per pot seedling 10 to 14 days after planting, so that water is not given as much as possible. Thereafter, the tomato grows while the oxidation-reduction potential value in the body is maintained at a negative value or a value close to the negative value having a larger absolute value. Therefore, even after growth, the oxidation-reduction potential value
Harvesting tomatoes or other vegetables held at minus or near minus values, which are larger in absolute value, and serving them for edible use also suppresses active oxygen in the human body that ingests them, and increases the oxidation-reduction potential value. The value is maintained at a negative value or a value close to the negative value, and it is a safe food having a high reducing power for suppressing active oxygen (Table 1).

Further, in the method of making a tree planting and bonsai (step S-3), an example of a method of making a tree planting and bonsai is described. In tap water, groundwater, and the like, seedlings and the like that grow in a wild mountain often die due to different soils. Therefore, high voltage applied water can be used to grow and plant vigorously. The first use of high-voltage applied water is to plant the sapling of vegetation and bonsai in the soil at the time of planting, wash off the soil attached to the roots of the sapling thoroughly with tap water or mountain water, and then all day and night.
Dip soak in high-voltage applied water. After planting in pots or soil, water is added and dispersed under the seedlings. Planted 10-15
At the time when the roots take root in the day, the redox potential value of the trunk of the seedling is maintained at a minus value or a value closer to minus than the absolute value by sprinkling water more sufficiently, so that the seedling grows vigorously.

In the method of producing fruit seedlings (step S-4), an example of a method of producing fruit seedlings will be described. An apple in a cultivation method using high-voltage-applied water such as apple, lemon, tangerine, and persimmon will be described. By sufficiently applying high-voltage-applied water at the time of sowing and at the time of the seedling, the redox potential value in the stem of the apple thereafter grows while being kept at a minus value or a value close to minus, which is larger in absolute value. . When growing and harvesting the apple, the redox potential value of the apple, whose absolute value is kept at minus or near minus, is edible, and active oxygen is suppressed in the human body that ingested it. And
Since the oxidation-reduction potential value is maintained at a value that is more or less than the absolute value, active oxygen is suppressed, and the food is safe. Immediately after the snowmelt in March, the first 10 l of high-voltage applied water was applied to the root of an apple tree grown for 10 years, and the second time, 10 l of water were given to the root again at the flowering time.
The redox potential value of the harvested apple is -20 to 3
The value of 0 was shown. In addition, the redox potential value of apples to which high-voltage applied water was not applied was a value in the range of plus 50 to 100, and a clear difference was seen.

Then, in the method of growing seafood (step S-5), an example of a method of growing seafood is described. The charr in the method of growing fish and shellfish such as char and trout will be described. The growth of the fish by the application of high-voltage water at the time of the growth of the fry of the char does not only remarkably improve the growth of the fish, but also the oxidation-reduction potential value in the body of the fish after the growth is reduced by 60 minus six months after the growth from the fry. Numerical values were obtained, and the oxidation-reduction potential value of the fish that did not use high-voltage applied water showed a numerical value of plus 50 to 100 units. As described above, since the oxidation-reduction potential value is maintained at a value that is more or less than the absolute value, the active oxygen is also suppressed in the human body ingesting the oxidation-reduction potential value, and the oxidation-reduction potential value becomes
Since the absolute value is kept at minus or a value close to minus, it becomes a safe food with high reducing power in which active oxygen is suppressed.

Then, in the flower seedling making method (step S-6), an example of a flower seedling making method will be described. chrysanthemum,
At the time of sowing high voltage application water by the method of making saplings of azaleas, plums, cherry blossoms, etc.
At the time of germination, 100 cc per seedling is given for the second time, and at the time of planting, 100 cc per seedling is given to the soil. In the case of flower seedlings without seeding, one seedling at the time of planting in soil,
The first 100 cc per 10 cm of growing height, the second was watering 50 cc per seedling every day for one week after planting, and the growth of chrysanthemums, azaleas and cherry trees was improved by growing with normal water thereafter, and the plants were grown with high voltage applied water. The longevity of cut flowers lasts 2 to 3 times longer than usual. In addition, high-voltage applied water in which cut flowers are flooded for a long time is characterized by no turbidity or odor, as seen in tap water, etc., and the oxidation-reduction potential value of the water has a negative or larger absolute value. Since the water is close to minus, it can be said that it contributes to the preservation of the global environment even when drained.

In the method of producing flower bulbs (step S-7), an example of a method of producing flower bulbs will be described. The dahlia and gun lily in the growing method such as gladiolus, gun lily, peony and dahlia will be described. High voltage applied water is applied to both dahlia and gun lily. Bulbs are planted in soil at the time of planting, the first 100 cc per bulb, the second time at germination 100 cc, and thereafter normal water. The flower is picked at the 8th minute of flowering, and 100cc per bulb is given to the base of the bulb. The bulb is kept for one day and night, and thereafter, the bulb is harvested, shade-dried and stored at a low temperature. As described above, the longevity of cut flowers due to bulbs grown with high-voltage water is 2 to 4 times longer than usual. In addition, the growth and flowering of cut flowers with buds is also significantly different from other waters. The high-voltage applied water in which cut flowers are flooded for a long period of time is also characterized by the absence of turbidity and odor, as seen in tap water, etc. Alternatively, since the water is close to minus, it can be said that it contributes to the preservation of the global environment even when drained.

Then, in the method of growing chickens and birds (step S-8), an example of a method of growing chickens and birds will be described. Therefore, a method of growing chicken will be described. By applying water to which high voltage is applied from the time of the growth of the young bird, not only the growth of the chicken is remarkably improved, but also the yellowish (Table 1) redox potential value of the egg produced after the growth is more negative than the absolute value. Alternatively, it is kept at a value close to minus. The same oxidation-reduction potential value as in (Table 1) was obtained by giving high-voltage-applied water to the grown chickens for one week. In this way, the human body taking these foods also suppresses active oxygen, leading to the oxidation-reduction potential value being maintained at a value that is more negative or closer to the negative value, which is a cause of disease It is a safe food that eliminates and reduces active oxygen.

Then, in the method of growing livestock and animals (step S-9), an example of a method of growing livestock and animals will be described. By applying high-voltage applied water during the rearing period of livestock and animals, not only does the growth of livestock and animals significantly improve, but also the milk after growth has a redox potential value that is more or less than the absolute value. Since it is kept close,
Reactive oxygen is also suppressed in the human body that ingests it, and the oxidation-reduction potential value is maintained at a value that is more or less than the absolute value, so that the active oxygen that causes disease is eliminated and reduced. Food. See Table 1 for the oxidation-reduction potential value (mv) after harvesting by the production method for each growth.

Next, an example of a method for producing maitake (maitake) and shiitake mushrooms in a method for growing mushrooms (step S-10) will be described. First, Maitake will be described. Before inoculating Maitake mushrooms on the old tree of Mizunara (pricking), the old trees are soaked in high-voltage-applied water for one week, and then the Maitake mushrooms harvested by inoculating Maitake mushrooms have absolute redox potential values Grow to a larger negative or near negative state. In addition, for shiitake mushrooms, various dried oak logs, such as oak and oak, are immersed in high-voltage-applied water before planting mushroom fungi as described above.
By immersing in water for a week, the bacteria of Shiitake mushrooms are subsequently implanted, so that the redox potential value of the harvested Shiitake mushrooms can be harvested in a state where the absolute value is larger or more negative. The mushroom fungus can be planted on chips made from oak lumber and made into cork material, and high voltage application water can be sprayed on the cork to germinate the mushrooms and harvest them. It can be used for growing various mushrooms. In addition, humans can ingest various nutrients, including dietary fiber, which mushrooms have, making them safe foods that will greatly help maintain health.

[0028]

As described above, by using high-voltage-applied water, the oxidation-reduction potential value in the growth process and after the growth can be reduced to a negative or a negative value having a larger absolute value in the above-mentioned various growth processes. The values can be kept close to each other. Therefore, when these seafood, livestock, vegetables, fruits, plants, etc. are used as food, the effect of eliminating active oxygen in the body is extremely low because they are not used for chemicals. High food production is possible, and health condition can be maintained. Besides, not only preservation of human living environment,
The reduction of organic matter that is safe for the natural environment of the earth will be performed.

[Brief description of the drawings]

FIG. 1A is a flowchart showing a method for growing plants and organisms using water obtained by high-voltage applied discharge.

FIG. 1-b is a flowchart showing a method of growing and growing plants and organisms using water obtained by high-voltage applied discharge.

FIG. 2 is an explanatory diagram showing an example of a high-voltage-applied water production device circuit immersed in filled water.

FIG. 3 is an explanatory view of a high voltage application electrode and a discharge wire of the high voltage application water production apparatus used in the present invention.

FIG. 4 is an explanatory view of a high-voltage current collector plate of the high-voltage-applied water production apparatus used in the present invention.

FIG. 5 is an overall view of a high-voltage application water producing apparatus used in the present invention, in which a high-voltage application electrode and a discharge wire are installed at the center of the upper part of a water tank and installed on both sides.

[Description of sign]

DESCRIPTION OF SYMBOLS 1 Water tank 2 High voltage application electrode 3 High voltage discharge wire 4 High voltage current collector 5 High voltage generator 6 High voltage application water obtained by applying high voltage discharge to filled water

Claims (13)

[Claims] 1. A high-voltage current collector plate having a plurality of protruding rods crossing a plurality of protruding rods and a plurality of high-voltage discharge electrodes having a plurality of protruding rods facing a water tank filled with insulating shield material. High-voltage-applied water obtained by applying a high voltage between the high-voltage current collector plate and the high-voltage discharge wire to cause discharge, or filtering and heat-treating the high-voltage applied water. To the voltage applied water,
By immersing these humans and animals and plants, such as fish and shellfish, fruits, vegetables, and plants, or by applying the high-voltage-applied water to the above-mentioned organisms, the growth process of the organisms and the oxidation-reduction potential value after the growth are reduced. A method of growing plants and organisms using water obtained by high-voltage application discharge, wherein the absolute value is maintained at a negative value or a state close to a negative value. 2. The method according to claim 1, wherein the high-voltage discharge water is used to germinate the seedlings in the growing process in rice cultivation using a germinator and a container. By increasing the water content in the stalk and the oxidation-reduction potential value of the rice seedling to a negative or near negative state with a larger absolute value, the growth of rice and hydroponic cultivation is promoted, A method for growing plants and living organisms using water obtained by applying a high voltage to discharge, wherein the redox potential value of the hydroponic cultivation product is a negative value or a value close to the negative value having a larger absolute value. 3. The method according to claim 1, wherein the high-voltage discharge water is used to produce vegetable seedlings in a growing process in the production of vegetables. By making the oxidation-reduction potential value of the seedling of the vegetable into a state of minus or near minus with a larger absolute value, the growth of soil vegetables and hydroponic vegetable cultivation is promoted, and the harvested vegetables and hydroponic vegetables A method for growing plants and living organisms using water obtained by applying a high voltage to discharge, wherein the oxidation-reduction potential value of the cultivated product is a minus or a minus minus value having a larger absolute value. 4. The method according to claim 1, wherein the high-voltage discharge water is used to produce bonsai seedlings in a vegetative bonsai-growing process. Water, the redox potential value of the seedlings of the bonsai, by making the absolute value of minus or near minus, promote the growth of soil bonsai and hydroponic bonsai, redox potential value of the grown bonsai A method of growing plants and organisms using water obtained by applying a high voltage to discharge, wherein the absolute value is a negative value or a value close to the negative value. 5. The method according to claim 1, wherein the high-voltage discharge water is used to produce fruit seedlings by a growing method in fruit production. By setting the redox potential value of the fruit seedling to a negative value or a value close to the negative value, the growth of soil fruits and hydroponic fruits is promoted, and the oxidation of harvested fruits and hydroponic fruits is promoted. A method of growing and growing plants and organisms using water obtained by high voltage application discharge, wherein the reduction potential value is set to a negative value or a value close to the negative value having a larger absolute value. 6. The method according to claim 1, wherein the high-voltage applied discharge water is used for the growth of fish and shellfish fry in a method of growing and growing fish and shellfish fry. By making the oxidation-reduction potential value a negative value or a state close to minus having a larger absolute value, the growth of the larvae of fish and shellfish is promoted, and the oxidation-reduction potential value of the grown fish and shellfish is higher than the absolute value. A method for growing plants and living organisms using water obtained by applying a high voltage to discharge, characterized in that a large negative or nearly negative one is used. 7. The method according to claim 1, wherein the high-voltage discharge water is used to produce flower seedlings by a growing method in the production of flower seedlings. Water, the redox potential value of the seedlings of the flower, the absolute value of which is more negative or close to minus, to promote flower cultivation and hydroponic flower cultivation of the soil, redox of the grown flower A method for growing plants and living organisms using water obtained by high-voltage application discharge, characterized in that the potential value is set to a negative value or a value close to the negative value, which is larger than the absolute value, so that a long-lasting flower is produced. 8. The method according to claim 1, wherein the high-voltage-applied discharge water is used for producing flower bulbs in a growing process for producing flower bulbs. Water, the redox potential value of the flower bulb,
By increasing the absolute value to a minus or near minus state, soil flower cultivation and hydroponic flower cultivation are promoted, and the oxidation-reduction potential value of the grown flower is larger or smaller than the absolute value. A method for growing and growing plants and organisms using water obtained by applying a high voltage and discharging, characterized in that the method is to produce a substance close to the above. 9. The method according to claim 1, wherein the high-voltage discharge water is used for growing birds such as poultry in the growth process, whereby the oxidation-reduction potential value in the body during the growth of the poultry and birds is determined by an absolute value. By promoting the growth of birds such as poultry farming by making the state of minus or near minus, the redox potential value of the eggs and meat after growth is the minus or near minus of the absolute value. A method for growing plants and organisms using water obtained by high-voltage applied discharge. 10. The method according to claim 1, wherein the high-voltage applied discharge water is used for growing animals such as livestock in the growing method of animals such as livestock. By making the oxidation-reduction potential value a negative value or a value close to a negative value, the growth of livestock and animals is promoted, and the milk of livestock after growth,
A method for growing plants and living organisms using water obtained by high-voltage application discharge, wherein the oxidation-reduction potential value of meat is set to a negative value or a value close to the negative value having a larger absolute value. 11. The use of the high-voltage applied discharge water according to claim 1 for the growth of mushrooms in the growth production method, whereby in the growth of mushrooms, the oxidation-reduction potential value of the mushroom components is increased to a larger absolute value. By making the state of minus or close to minus, the growth of livestock and animals is promoted, and the redox potential value of the milk and meat of the livestock after growth is reduced to the larger minus or more minus absolute value of the absolute value. A method for growing plants and organisms using water obtained by high-voltage applied discharge. 12. The growth-reduction potential value of the absolute value of the high-voltage-applied water according to claim 1 is increased by intentionally flooding or giving the grown flowers, plants, seafood, livestock, animals, etc. A method for growing plants and living organisms using water obtained by applying a high voltage to discharge, characterized in that it is made to be a larger minus or near minus. 13. The method of claim 1, 2, 3, 4, 5, 6, 7,
The high voltage applied discharge water described in 8, 9, 10, 11, 12 is
A method for growing plants and living organisms using water obtained by applying a high-voltage applied discharge, wherein the water is obtained by applying a high-voltage applied discharge that exceeds 100 V and is infinite to over 100 V, which is used in households.