KR101334586B1 - Method for Growing Sweet Potato Comprising Organic Germanium - Google Patents

Abstract

The cultivation method of sweet potato containing the organic germanium according to the present invention, before planting seed sweet potato 15 ~ 20%, 15 ~ 20% bone meal, 8 ~ 10% bone meal 8 ~ 10%, 8 ~ 10% humic acid, Soil improvement step (S110) for administering functional compost containing 15-20% of rice bran and 8-10% of zeolite to seedling complex, produced by administering organic germanium at a concentration of 1000-3000 ppm to plasma protein hydrolysates of livestock Seed sweet potato immersion step (S120) for immersing the sweet potato in a mixture of the dilute organic germanium-binding peptide prepared in water (S120), planting the sweet potato immersed in the step S120 in the seedlings improved soil in step S110 and the sweet potato nursery seedlings Raising seedling production step (S130), before transplanting the sweet potato nursery seedling produced in step S130 livestock blood meal 15-20%, ink 15-20%, bone meal 8-10%, milk meal 8-10%, humic acid 8-10 Functional compost which mixed%, rice bran 15-20%, zeolite 8-10% to this planting complex Soil improvement step (S140) for administering the main plant complexes and the main plant complex with improved soil in step S140 after transplanting the sweet potato seedlings produced in step S130 to the main plant complex and managing growth. It characterized by including (S150).

Description

Method for growing sweet potato containing organic germanium {Method for Growing Sweet Potato Comprising Organic Germanium}

The present invention relates to a method of cultivating sweet potatoes, and more particularly, to a method of cultivating sweet potatoes containing organic germanium grown using an organic germanium-binding peptide agent and functional compost.

Sweet potato is an alkaline food and contains various vitamins, minerals and high quality fiber, and it is well known that it is a low pollution health food that can be cultivated with little use of pesticides. In particular, the tuber of sweet potatoes has the highest amount of carbohydrates as a source of energy, and contains protein, fat, dietary fiber, potassium, phosphorus, iron, ash, etc., and the protein contains essential amino acids in a balanced manner. It is abundant, so if you consume 100g of sweet potatoes every day, you can supply 100% of your daily vitamin A needs. In recent years, pharmacological effects such as anti-cancer, antioxidant activity and lowering of cholesterol in sweet potato have been recognized.

In the cultivation method of sweet potatoes with these characteristics, nutrients necessary for growth have been supplied by using pesticides to prevent herbicides and pests or by spraying chemical fertilizers, but recently, no pesticides, chemical fertilizers and sample additives are used, or only a minimum amount. As the interest in organic or environmentally friendly sweet potatoes produced by using a rapid increase, efforts are being made to cultivate high quality sweet potatoes without damaging pests without using pesticides or chemical fertilizers.

In the meantime, there have been many attempts to contain germanium in plants.As a result of the fertilization of inorganic germanium (germanium ore powder) by the method of germanium, only inorganic germanium does not contain germanium. In intensively produced houses, there is a report that the ground gradually solidifies, yield drops, and fruit becomes smaller. In addition, crop cultivation by organic germanium farming has been attempted in some crops, but it is difficult to accept at the site due to high cost and low productivity because it does not simultaneously achieve high yield of organic germanium-containing crops, increase yields, improve storage efficiency, and increase productivity. There is a problem that the practical use of the technology is difficult.

The present invention has been made in view of the above-mentioned, the organic sweet potato seedlings produced by immersing the sweet potato in a mixture of organic germanium-binding peptides produced by combining the plasma protein hydrolyzate of livestock with organic germanium in water The purpose of the present invention is to provide a method of cultivating sweet potatoes containing organic germanium, which is grown by administering transplant and functional compost to the main culture complex.

The cultivation method of sweet potato containing the organic germanium according to the present invention provided to achieve the above object is 15 to 20% by weight, 15 to 20% by weight, 15 to 20% by weight, bone flour 8 weeks before planting seed potatoes %, Soil growth step of administering functional compost containing 8-10% by weight of humic acid, 15-20% by weight of rice bran, 8-10% by weight of zeolite, and various enzymes and yeasts to seedling complex (S110); Seed sweet potato immersion step (S120) of immersing the sweet potato in a mixture of the organic germanium-binding peptide agent produced by administering the organic germanium at a concentration of 1000 ~ 3000ppm to the plasma protein hydrolyzate of livestock diluted in water; Seedling production step (S130) to grow the sweet potato nursery by planting the yam immersed in the step S120 in the seedling complex improved soil in the step S110 (S130); Two weeks before transplanting the sweet potato seedlings produced in step S130, 15-20% by weight of livestock powder, 15-20% by weight, 8-10% by weight of bone meal, 8-10% by weight of humic acid, 15-20% by weight of rice bran , 8-10 wt% zeolite, the main plant complex soil improvement step of administering a functional compost containing various enzymes and yeasts to the main plant complex (S140); And, after two weeks after the soil production is improved in the step S140, the main planting step (S150) for transplanting the sweet potato seedlings produced in the step S130 to the main planting complex and management of growth; It features.

In the step S120, it is preferable that the seed potatoes are completely immersed in a mixture of water and the organic germanium-binding peptide at a ratio of 800 to 1200 (g): weight 1 (g).

In addition, in the step S130, after the leaves of sweet potato seedlings of the seedling complexes are about 3-4, the mixture of immersing the sweet potato until seed planting complex is preferably 2-3 times per week.

In the step S150, the organic germanium-binding peptide is prepared by administering the organic germanium at a concentration of 1000-3000 ppm to the plasma protein hydrolyzate of the livestock, and the water and the organic germanium peptide are weighed 800-1200 (g). : After producing a mixture diluted at a weight ratio of 1 (g), it is preferable to apply foliar fertilization using a spray apparatus after the sweet potato seedlings have fully adhered and the new stem has grown at least 4 to 5 nodes.

According to the cultivation method of sweet potato containing organic germanium according to the present invention, there is almost no damage to disasters, diseases, and pests, the yield of sweet potatoes is increased, and the leakage rate generated during storage is reduced, thereby increasing storage properties. In particular, it can produce sweet potatoes rich in nutrients such as germanium and minerals.

In addition, the cultivation method of sweet potato containing the organic germanium according to the present invention has a large import value compared to the investment cost can play a role as a new business model of the farm, and the curing process can be omitted, there is an economic effect.

1 is a flow chart illustrating a cultivation method of sweet potatoes containing organic germanium according to the present invention,
Figure 2 is a photographic material showing the mixture remaining after picking up the sweet potato immersed in step S120,
Figure 3 is a photographic material showing the yam, immersed in step S120,
Figure 4 is a photographic material showing the state that the sweet potato nursery seedlings implanted in the main culture complex during the main culture step of step S150,
Figure 5 is a photographic material showing the sticking failure state of ordinary sweet potato, and
Figure 6 is a photographic data showing the main culture complex after foliar fertilization of the organic germanium-binding peptide agent during the main culture step.

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. Hereinafter, with reference to the accompanying drawings will be described in detail the cultivation method of sweet potato containing organic germanium.

1 is a flowchart illustrating a cultivation method of sweet potatoes containing organic germanium according to the present invention.

Looking at Figure 1, the method of cultivating the sweet potato containing the organic germanium according to the present invention to improve the soil of the seedling complex (S110), soaking yam step (S120), planting seed potatoes in the seedling complex to produce sweet potato seedlings Step (S130), the step of improving the soil of the plant cultivation complex (S140), the planting step (S150) for transplanting sweet potato seedlings to the plant cultivation complex and managing growth.

First, the step S110 will be described in detail. The seedling complex is formed one week before the seed potato planting (early February), and the functional compost containing natural organic substances is administered to the seedling complex for soil improvement. The natural organic substances included in the functional compost are 20% by weight of animal blood powder, 20% by weight of ink, 10% by weight of bone powder, 10% by weight of humic acid, 20% by weight of rice bran, 10% by weight of zeolite, various enzymes and yeast, The soil can be made healthy by improving breathability, water retention, and binding properties and by activating enzymes. If necessary, farmers can further spread the compost, including their own livestock meal, as manure. Among the organic materials of functional compost, oil cake is a generic term for oil residue from plant seeds. It is used not only as livestock feed because of its high content of starch and protein, but also as a self-supporting fertilizer because it contains a lot of organic matter and nitrogen and contains phosphoric acid and potassium. Bone dust is a ground powder of animal bone and is used as a fertilizer or feed. According to the manufacturing method, it is divided into coarse bone meal, thickened bone meal, pulverized bone meal, and leached bone meal. Humic acid is an organic material extracted from soil by alkali or deposited by acid, which promotes the absorption of phosphate from plant roots, and enhances energy metabolism and enzyme activity. Rice bran refers to the inner skin of rice bran and rice flakes, which are produced during the refining process from brown rice to white rice, and contains a large amount of pesticides and heavy metals, 'Fuchinic acid,' which detoxifies heavy metals and residual pesticides. Zeolite is a generic term for minerals that are aluminum silicate hydrates of alkali and alkaline earth metals. The zeolite is a crystalline microporous material that can hold water and fertilizers well, and has good adhesion to soften the ground.

The seedling complex operated by the applicant of the present invention is 330㎡ (100 pyeong), functional compost 60kg (100㎡) Per 18 kg).

2 is a photographic material showing the mixture remaining after picking up the yam immersed in the present invention, Figure 3 is a photographic material showing the yam immersion process.

Looking specifically at step S120, in order to immerse the seed potatoes, seedling potatoes are immersed in a mixture of organic germanium-binding peptides produced by administering the organic germanium at a concentration of 1000 ~ 3000ppm to plasma protein hydrolyzate of livestock . Specifically, the sweet potato is completely immersed in a mixture of water and the organic germanium-binding peptide agent diluted in a ratio of weight 800 ~ 1200 (g): weight 1 (g).

Peptides can be produced by hydrolyzing peptide bonds of plasma proteins of livestock such as slaughtered pigs, cattle, chickens, ducks, and the like, by combining them with amino acids by administering organic germanium thereto. Peptide bond refers to a chemical bond in which amino acids are separated from each other by carboxyl group (-COOH) of one amino acid and amino group of the next amino acid and connected in sequence to form a chain, and polypeptide means that thousands of these amino acids are gathered together. Using recombinant technology, specific peptides can be synthesized using E. coli in a container.

Herein, the organic germanium may use Ge-132 (Bis-Carboxyethyl Germanium Sesquioxide, (GeCH ₂ CH ₂ COOH) ₂ O ₃ ), and all other types of organic germanium. OrganoGermanium has been shown to have pharmacological effects such as anti-cancer, viral infection treatment, rheumatoid disease and senile osteoporosis, heavy metal detoxification, and natural tonics such as ginseng, garlic and ganoderma. Medicinal herbs are known to contain relatively large amounts of organic germanium.

Seed potatoes are best to use healthy sweet potatoes that are not sick and not cold. If you are concerned about the occurrence of black pattern disease, dry skin name, black pancake disease, or vine pruning disease transmitted by seed potatoes, use a medicinal herb as an invasive fungicide that can kill germs that have already invaded the seeds of sweet potato. Disinfection or hot water disinfection is preferred. Also, you should use 120 ~ 150g of sweet potato each.

In step S120, 12 hours before planting the seedling planting plant soaked completely in the immersion liquid mixture, and after the soaking time is finished, take out the sweet potato so that it does not freeze, so that the water completely drained indoors at about 5 ℃ and then the seedling complex Plant in In addition, it is effective to immerse in the immersion tank after putting in a large net in advance for the operation and movement, etc. to take out the soaked sweet potato.

In step S130, seeded sweet potatoes immersed in step S120 are sown in the improved seedling complex. In step S120, the immersion liquid (mixture) in which the sweet potatoes are soaked is kept as it is, and the leaves of sweet potato seedlings in the seedling complex are 3 ~. After 4 to 2 days before transplanting the plant cultivation complex foliar application 2-3 times a week. At this time, it is more effective to fertilize the calcium preparation in the mixture in order to increase the strength of the sweet potato sprout for raising seedlings. The production period of sweet potato seedlings is about 2-3 months.

Looking specifically at step S140, the functional compost containing the natural organic material is administered to the plant complex for soil improvement. Two weeks before transplanting the sprouted sweet potato seedlings in step S130 into the main plant complex, 20% by weight of animal blood powder, 20% by weight of ink, 10% by weight of bone meal, 10% by weight of humic acid, 20% by weight of rice bran, 10% by weight of zeolite, Functional compost containing various enzymes and yeasts is administered to the main plant complex, which improves the air permeability, water retention and fertility, and activates enzymes to make the soil healthy. If necessary, farmhouses can add the manure, including their own livestock meal, as a manure. At this time, it is preferable to add a calcium liquid ratio together to increase nutrients such as calcium and mineral components of sweet potatoes.

Main field cultivation complex directly operated by the applicant of the present invention is 3300㎡ (1000 pyeong), functional compost 600kg (100㎡ Per kilogram).

Figure 4 is a photographic data showing the state of cultivation of sweet potato seedlings transplanted to the main cultivation complex during the cultivation method according to the present invention, Figure 5 is a photographic data showing the state of sticking poor state of sweet potatoes, Figure 6 Photograph showing the cultivation complex after foliar fertilization of organic germanium-binding peptide during the cultivation stage.

Looking at step S150, about two weeks after the formation of the main plant complex after the soil improvement step, the sweet potato hair growth produced in step S130 is transplanted by applying a diagonal insertion formula. In this step, an organic germanium-binding peptide prepared by administering organic germanium at a concentration of 1000-3000 ppm to the plasma protein hydrolyzate of livestock is prepared, and water and the organic germanium peptide are weighed 800-1200 (g): weight 1 After producing the mixture diluted in the ratio of (g), the sweet potato seedlings are fully adhered and the new stems are grown more than 4 to 5 nodes, and then fertilized 2 to 3 times at 1 week intervals using a spray apparatus.

Sweet potatoes grown in the above step S150 is preferably harvested at the end of September to mid-October time, usually in the case of curing in order to increase shelf life, but after aging at room temperature for 2 days after harvesting according to the present cultivation method Store directly in low temperature warehouse around 15 ℃ without curing process. Curing refers to a treatment aimed at preventing the invasion of pathogens on wounds generated during harvesting by high temperature treatment before storage of sweet potatoes. In general sweet potatoes, 32 to 35 ° C and humidity of 85 to 90% If it is carried out for a day, a cork layer will be formed on the wound, which will increase resistance to black spot disease and the like during storage, leading to better storage. In the present invention, there is no need for such a curing process by administering organic germanium, so that the productivity and shelf life of sweet potatoes are increased and the required cost can be reduced.

The table below shows the results of the cultivation of germanium sweet potatoes cultivated by the applicant of the present invention.

<Table 1> Analysis results of Korea Food Research Institute

Looking at the <Table 1>, the results of analyzing the components of sweet potato seedlings and general sweet potato seedlings produced by applying the method of cultivating the organic germanium-containing sweet potato according to the present invention commissioned by the Korea Food Research Institute 2.83mg / kg of germanium (Ge) component was detected, and 0.12mg / kg of germanium component of general sweet potato seedlings was detected. Depending on the soil, even in the case of general sweet potato may contain a small amount of germanium component, it can be seen that the sweet potato seedlings produced by applying the present invention contains about 23 times the germanium than the general sweet potato seedlings.

<Table 2> Analysis results of Korea Basic Science Institute

In addition, referring to Table 2, the results of analyzing the components of sweet potato nursery seedlings and general sweet potato seedlings produced by applying the method of cultivating the organic germanium-containing sweet potato according to the present invention commissioned by Korea Research Institute of Basic Science In the case of sweet potato seedlings, 5.45 μg / L of germanium (Ge) component was detected, and in the case of general sweet potato seedlings, 0.37 μg / L of germanium component was detected. Depending on the soil, even in the case of general sweet potato may contain a small amount of germanium component, it can be seen that the sweet potato nursery seedling produced by applying the present invention contains about 15 times the germanium than the general sweet potato seedling.

<Table 3> Seedling Sliding Rate

Looking at the <Table 3>, it can be seen that when the cultivation method of sweet potato containing the organic germanium according to the present invention, the growth rate of hair growth is increased by 24% to 40% or more. In addition, it is resistant to disasters and pests, yields are increased, and the storage rate is increased by decreasing the leak rate during storage. It can be seen that the profitability of the farm can be increased due to the above improvement.

According to the cultivation method of sweet potato containing organic germanium according to the present invention, the growth rate of seedlings is high, there is almost no damage to disasters, diseases, and pests, the yield of sweet potatoes is increased, the leakage rate is reduced, and the shelf life is increased. In particular, it can produce sweet potatoes rich in nutrients such as germanium and minerals.

In addition, the cultivation method of sweet potato containing the organic germanium according to the present invention has a large import value compared to the investment cost can play a role as a new business model of the farm, and the curing process can be omitted, there is an economic effect.

Although the preferred embodiments of the present invention have been described, the present invention is not limited to the specific embodiments described above. It will be apparent to those skilled in the art that numerous modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims. And equivalents should also be considered to be within the scope of the present invention.

Claims (5)

Seedling complex soil improvement step of administering the functional compost containing livestock blood to the seedling complex before planting seed potatoes (S110);
Seed sweet potato immersion step (S120) for immersing the sweet potato in the mixture of the organic germanium-binding peptide agent diluted in water;
Seedling production step of planting seed potatoes immersed in step S120 and growing sweet potato seedlings in the seedling complex improved soil in the step S110 (S130);
Soil improvement step soil improvement step (S140) for administering a functional compost containing livestock blood to the main plant complex; And
Containing an organic germanium comprising: a step of cultivating the main plant in which the soil is improved in the step S140 and then transplanting the sweet potato seedlings produced in the step S130 to the main plant complex and managing the growth (S150); How to grow sweet potatoes. The method of claim 1,
The functional compost is composed of livestock blood powder 15-20% by weight, ink 15-20% by weight, bone powder 8-10% by weight, humic acid 8-10% by weight, rice bran 15-20% by weight, zeolite 8-10% by weight How to grow sweet potatoes containing organic germanium containing. The method of claim 1,
In the step (S120) of the sweet potato containing the organic germanium to immerse the seed potatoes in a mixture of water and the organic germanium-binding peptide agent diluted in a ratio of weight 800 ~ 1200 (g): weight 1 (g) Cultivation method. The method of claim 1,
The cultivation step of the step S150 is to produce a mixture of water and the organic germanium-binding peptide agent diluted in a weight ratio of 800 ~ 1200 (g): weight 1 (g), the sweet potato seedlings stick to the stem 4 A method of cultivating sweet potatoes containing organic germanium, which is foliar fertilization after growing more than ~ 5 nodes. The method according to any one of claims 1 to 4,
The organic germanium-binding peptide is a method of cultivating sweet potato containing organic germanium will be produced by administering the organic germanium to the plasma protein hydrolyzate of livestock at a concentration of 1000 ~ 3000ppm.

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