KR20120108533A - Manufacturing method of functional media using cheju scoria and nutriculture method and functional materials for preventing and treating of thereof manufacturing - Google Patents

Abstract

PURPOSE: A functional composition for a nutriculture, a nutrient solution cultivation method using the same and a material for preventing and treating various diseases using the same are provided to be used for preventing and treating various diseases by including a Scoria nutrient solution. CONSTITUTION: A manufacturing method of a functional composition for a nutriculture extracted from Scoria comprises the following steps: (S11) extracting a nutrient solution by mixing Scoria with an acid solution; and (S12) controlling the pH concentration of the nutrient solution to be 5.5-7.0. The step (S11) includes the following step: extracting Scoria by dipping or agitating the Scoria in citric acid for 12-48 hours. The nutrient solution cultivation method of the functional plant comprises the following steps: (S10) preparing a Scoria nutrient solution; (S20) swelling a plant seed in the Scoria nutrient solution; and (S30) cultivating the swelled plant seed by using the Scoria nutrient solution. [Reference numerals] (S10) Nutrient solution preparation step; (S11) Extraction step; (S12) Ph concentration control step; (S20) Swelling step; (S30) Cultivating the swelled plant seed step; (S40) Plant source obtaining step

Description

Manufacturing method of functional media using CHEJU Scoria and Nutriculture Method and Functional Materials for Preventing and Treating of Thereof Manufacturing}

The present invention is to prepare a nutrient solution for the cultivation of nutrient solution cultivated by using a volcanic ash (Scoria), a volcanic ash scattered in large quantities throughout Jeju Island containing various substances such as vanadium, selenium, zinc, etc. The present invention relates to a method of cultivating a plant with a cultivating composition and using the cultivated functional plant.

Jeju Scoria, a volcanic ash scattered throughout Jeju Island, is known to contain various substances.

The technology to use Jeju Songju (Scoria) containing these various substances is provided as below, and it is still developing technology using Jeju Songju.

(KR) In the method for preparing a zeolite material using Jeju clusters of Patent No. 301790, there is provided a method for producing a zeolite substance by hydrothermal synthesis of a Jeju cluster containing aluminum oxide using a sodium hydroxide solution which is a basic substance. have.

In addition, the academic paper published in 1994 (published by the Korean Society for Bio-environmental Control) provides a description of the changes of nutrient components in cherry tomato nutrient cultivation using Jeju pine. In the above-described technology, the Jeju pine is simply immersed in a plastic seedling box and then cultivated cherry tomatoes.

The present applicant intends to provide a technique for using nutrient solution such as vanadium, selenium, and zinc contained in Jeju pine for cultivation of nutrient solution, and to grow functional plants using the same.

Diabetes can be roughly divided into type 1 diabetes and type 2 diabetes, depending on the developmental mechanism.

The type 1 diabetes mellitus (insulin dependent diabetes melitus) is caused by an abnormal secretion of insulin from the pancreas, which is caused by the destruction of the beta cells of the insulin-producing pancreas by autoimmune reactions. Will be reduced. In contrast, type 2 diabetes mellitus is normal in insulin secretion in the beta cells, but it is highly insulin resistance in the peripheral tissues, resulting in an abnormal glucose metabolism, called adult diabetes mellitus, about 90% of all diabetics.

When insulin resistance increases due to obesity, insulin secretion continues to increase, leading to complications, and finally the pancreatic cells that make insulin lose their function.

In the progression to type 2 diabetes, there is a stage called prediabetes. Prediabetes is a term representing the middle of normal and diabetes, and refers to impaired glucose tolerance and impaired fasting glucose.

The impaired glucose tolerance refers to when the plasma glucose concentration is 141 to 199 mg / dl after 2 hours in the oral glucose load test, and the fasting glucose disorder refers to the fasting plasma glucose concentration to 111 to 125 mg / dL.

Prediabetes is a pre-diabetes disease that is a risk factor for type 2 diabetes and a risk factor for cardiovascular disease, and its prevalence increases. Exercise therapy and diet is recommended instead of special treatment due to the risk of induction.

Therefore, it is necessary to develop materials that can be prevented before diabetes or prevented after treatment.

One of the diets is the consumption of vanadium-containing foods. About 30 years ago, research on vanadium was carried out by Professor Yoram Shechter of the Weizman Institute in Israel. It has been found to function, and vanadium has been shown to be able to cure various metabolic defects caused by diabetes. In addition, several joint research teams in Japan have found that vanadium improves diabetic disease, according to a study that natural water, including vanadium, a mineral, has the effect of improving diabetes.

In addition to research to utilize vanadium,

VANADIUM ION-CONTAINING SUGAR, LIPID AND / OR NITROGEN METABOLIC DISEASE-IMPROVING AGENT The present invention provides a sugar, nitrogen, and / or lipid metabolism improving agent, wherein the beverage contains at least 80 µg / L of vanadium ions (V), and the content of vanadium ions (V) is preferably It is 100-300 microgram / L, More preferably, it is 200-250 microgram / L, As one Embodiment of this invention, the said beverage is a technology which can utilize form, such as mineral water, green tea, black tea, juice, or lactic acid bacteria drink. Study,

VANADIUM ION-CONTAINING AGENT FOR AMELIORATING HYPERTENSION, HYPERLIPEMIA AND NEUTRAL-FAT LIPEMIA AND BLOOD SUGAR-LOWERING AGENT FOR HYPERLIPEMIA AND NEUTRAL-FAT LIPEMIA PATIENT A technology that verifies the effects of drinking vanadium ionized water and provides the use of vanadium ionized water, which is reliable for adult disease, based on the results of these treatments, and contains vanadium ion (V) at a concentration of at least 80 µg / L. In the form of the aqueous solution, characterized in that it provides a blood glucose lowering agent used for the prevention or treatment of diabetes, such as a high blood pressure improving agent used for the prevention or treatment of high blood pressure in a mammal,

METHOD FOR PRODUCING VANADIUM-CONTAINING MYCELIUM OF AGARICUS AND FOOD HAVING AGARICUS FUNCTION To provide a functional food containing and a production method for producing the functional food efficiently and efficiently, seed culture solution of Agaricus mushroom mycelium is inoculated into a culture paper containing a water-soluble vanadium compound together with culture components such as a carbon source, a nitrogen source, a mineral source, and water. Sea cultivation is a technique for obtaining agaricus mycelium containing vanadium. The agaricus mushroom mycelium is separated from the liquid using a separator such as a centrifugal separator, dried with a drier, pulverized with a pulverizing apparatus, and pulverized with vanadium-containing mycelium powder. Technology characterized by obtaining functional food comprised ,

VANADIUM-CONTAINING RADISH SPROUT AND METHOD FOR CULTURING THE SAME (Japan (JP) Publication No. 2006166833) contains vanadium, which is said to be an effective element for the prevention of diabetes, and is a food containing vanadium as a food that can be easily eaten daily. A method of cultivating young cotyled radish by providing seeds of young cotyled radish, growing seed of germinated young cotyled radish into a hydroponic cultivation water bath while feeding liquid fertilizer of predetermined temperature including soluble kali, phosphorus, nitrogen, etc. in the water. In this method, the vanadium concentration in the liquid fertilizer is preferably 0.05 to 10 mg / L in the method of cultivating young cotyled radish by adding a soluble compound of vanadium to the liquid fertilizer and growing. The vanadium content of young cotyledon radish produced according to the present invention is preferably about 10 to 100 ppm. Can be.

As mentioned above, research on the production of materials and products using vanadium has been conducted, but systematic research is still insignificant. This technology also reduces the incidence through the prevention of diabetes and at the same time produces functional materials capable of supporting the treatment. Technology.

Domestic patent registration No. 301790 (2001. 06. 28. registration)

Changes of Nutrient Components in Cherry Tomato Nutrient Cultivation Using Jeju Cluster (Preparation Year: 1994. Publisher: Korean Society for Bio-Environment Control)

The inventors of the present invention, while studying the functional material using Jeju clusters containing various components such as vanadium (selenium), zinc, vanadium (selenium), selenium (selenium) ), To provide a functional composition for nutrient cultivation extracted from Jeju pine can be used for nutrient cultivation, such as zinc,

In addition, it provides a nutrient solution cultivation method using the nutrient solution cultivation functional composition extracted from Jeju pine cultivation to establish the nutrient solution cultivation conditions of various plants using the nutrient solution cultivation functional composition extracted from the Jeju pine,

In addition, to provide a material using a nutrient solution cultured functional plants using a nutrient solution cultured composition extracted from Jeju matsutake.

That is, the applicant of the present invention confirmed that the vanadium having a nutrient prevention and treatment effect in the cultivation of nutrient solution was accumulated by using the nutrient solution for cultivating the nutrient solution extracted from Jeju pine, and also confirmed that selenium, zinc, etc. were accumulated. The invention has been completed.

Functional composition for cultivation of nutrient solution extracted from the Jeju pine which is the present invention for achieving the above object, the extraction step (S11) and the step (S11) by using the acid solution to prepare the nutrient solution by mixing the Jeju pine and acid solution Characterized in that it is obtained by adjusting the pH concentration step (S12) of adjusting the pH concentration of the nutrient solution extracted from 5.5 ~ 7.0.

The extracting step (S11) is characterized in that to extract the components contained in the Jeju pine immersed or stirred for 12 to 48 hours in the citric acid (Citric acid) used as a food additive in Jeju.

The nutrient solution cultivation method of the functional plant using the functional composition for cultivating nutrient solution extracted from the Jeju pine is another invention, the extraction step (S11) by using the acid solution to prepare the nutrient solution as a functional composition for cultivating the nutrient solution by mixing Jeju pine and acid solution (S11) And, Jeju pine nutrient solution preparation step (S10) consisting of a pH concentration adjusting step (S12) for adjusting the pH concentration of the nutrient solution extracted in the step (S11) to 5.5 ~ 7.0; A soaking step (S20) of soaking the plant seeds in the Jeju pine nutrient solution prepared in the step (S10); It characterized in that it comprises a nutrient solution cultivation step (S30) for cultivating the plant seeds called in the step (S20) using the Jeju pine nutrient solution prepared in the step (S10).

The extracting step (S11) is characterized in that to extract the components contained in the Jeju pine immersed or stirred for 12 to 48 hours in the citric acid (Citric acid) used as a food additive in Jeju.

Plant seed in the soaking step (S20) is characterized in that the soaked in the pine mushroom nutrient solution prepared in the step (S10) for 3 to 5 hours soaked.

Functional material for the prevention and treatment of functional plants containing vanadium or selenium, zinc or manganese as an active ingredient among the functional plants grown by the nutrient solution cultivation method of the functional plant using the functional composition for cultivation of nutrient solution extracted from Jeju You can do

As described above, the nutrient solution for cultivation of the nutrient solution cultivated in the present invention is extracted from the vanadium, selenium, zinc, manganese, etc. contained in the Jeju pine using an acid solution and nutrient solution cultivation composition used for nutrient solution cultivation using the same By producing the nutrient solution for cultivation containing vanadium, selenium, zinc and the like can be provided.

In addition, by cultivating the plant by the nutrient solution cultivation method using the nutrient solution for cultivating the functional composition extracted from Jeju as described above it is possible to promote the national health.

In addition, the functional plant grown by the nutrient cultivation method using the nutrient cultivation functional composition extracted from Jeju pine as described above can be used as a functional material for the prevention and treatment of various diseases by containing a large amount of vanadium, selenium, zinc and the like. .

1 is a step configuration of obtaining a nutrient solution for cultivation functional composition extracted from the Jeju pine according to an embodiment of the present invention and cultivating the plant using the same.
Figure 2 is a schematic diagram showing a method of cultivating the nutrient solution for cultivation using the nutrient solution for cultivation nutrient solution extracted from the Jeju pine, cultivating the nutrient solution alone or put in the nutrient solution of Jeju pine or jade.
Figure 3 is a photo of cultivated sprout rapeseeds short-term crops using the functional composition for cultivation culture extracted from Jeju pine.
Figure 4 is a photo of cultivated cheonggyeongchae medium- to long-term crops using the functional composition for cultivation nutrient extract extracted from Jeju pine.
FIG. 5 is a photograph of cultivating short-term crops of multicolored sprouts and sprouts using functional compositions for cultivation extracted from Jeju pine.

The present invention uses a functional composition for cultivation of nutrient solution extracted from Jeju pine (Skorea) containing vanadium, selenium (selenium), zinc and many other useful ingredients through the extraction step using an acid solution vanadium. Plants containing selenium, zinc and the like are obtained, and the plants provide various functional materials as active ingredients. In particular, plants containing vanadium provide functional materials for the prevention and treatment of diabetic diseases. Plants containing selenium provide functional materials with anti-cancer effects, skin health benefits, anti-aging, high blood pressure, and blood circulation. To provide a plant that will contain zinc to provide a functional material having efficacy in preventing hair loss and taste slowing.

The functional material includes pharmaceutical and food materials.

Hereinafter, the present invention will be described in detail.

Cultivation of nutrient solution cultivation composition and plant containing vanadium, selenium, zinc, manganese and the like according to the present invention is prepared by the following method.

Referring to Figure 1,

1. Nutrient Preparation S10 )

Using Jeju clusters to produce a functional composition (nutrient solution) for cultivation of nutrient solution extracted from Jeju clusters through the extraction technology suitable for germination and growth, while containing various useful components such as vanadium, selenium, zinc.

The nutrient solution preparation step (S10) for preparing the Jeju nutrient solution for cultivation of nutrient solution (nutrient solution), using the acid solution such as citric acid (citric acid) to extract various useful components, such as vanadium, selenium, zinc contained in Jeju Extraction step (S11), and pH concentration control step (S12) of adjusting the pH concentration of the nutrient solution extracted in the extraction step (S11) to 5.5 ~ 7.0.

In the extracting step (S11), the Jeju cluster and the acidic solution are mixed in a ratio of 1 to 8 to 12, and then stirred in a stirrer for 12 to 48 hours at 100 to 300 rpm to sufficiently extract useful components in the Jeju cluster. Then, the stirred mixture is filtered to obtain a functional composition for nutrient solution (nutrient solution). Alternatively, the Jeju clusters and the acidic solution may be mixed in a ratio of 1 to 8 to 12, and then stored in a storage container for 12 to 48 hours without stirring to extract useful components by immersing the Jeju clusters in the acidic solution.

Table of Changes in Components by Time when Extracted with 0.1% Citric Acid (Unit: mg / L) division Mn Fe Co Zn CD Pb Se V 0.1% citric acid sol.
-Jeju Song 24-hour stirred extract 0.41 2.75 - 0.06 - - 0.10 0.31 0.1% citric acid sol.
-Jeju Song 48 hours stirring extract 0.75 5.13 - 0.08 - - 0.15 0.38 0.1% citric acid sol.
-72 hours stirring extract from Jeju 0.97 7.52 - 0.08 - - 0.15 0.42

Using the 0.1% citric acid sol. And Table 1 as shown in Table 1 above, the Jeju clusters were extracted for 24 hours, 48 hours, 72 hours with stirring at 20 ° C, and filtered to compare the components contained in each time zone.

The content of vanadium was analyzed to be 0.31 ppm in 24 hours extract, 0.38 ppm in 48 hours extract, 36% increase compared to 24 hours, and 0.42 ppm in 72 hours, about 50% compared to 24 hours extract. It was analyzed to increase. In addition, Cd, Pb, etc. of the heavy metal elements were not extracted, and mineral elements Mn, Zn, and the like were extracted.

These results show that when the Jeju pine extract is used to secure the vanadium concentrated water using 0.1% citric acid sol., It is possible to select 24 hours and 48 hours as appropriate.

Table of Changes in Contents of 0.1% Citric Acid According to Extraction Drainage (Unit: mg / L) division Mn Fe Co Zn CD Pb Se V 0.1% citric acid sol.
-Jeju Song-i 24 hours extract 0.97 9.17 - 0.04 - - - 0.15 0.1% citric acid sol.
-2 times Jeju pine extract for 24 hours 0.97 7.56 - 0.06 - - - 0.40 0.1% citric acid sol.
-Jeju multiple 24-hour extract 1.07 8.34 - 0.11 - - - 0.42 0.1% citric acid sol.
-10 times Jeju pine extract for 24 hours 0.36 2.17 - 0.05 - - - 0.30

As shown in Table 2 above, the contents of the extracts of Matsutake extract obtained by extracting for 24 hours by varying the drainage added to Jeju Matsutake using 0.1% citric acid sol.

The vanadium content was 0.15 ppm in the extract extracted from Jeju clusters and 0.1% citric acid sol. In a ratio of 1: 1 by weight, and the vanadium content was 0.40 ppm in the extract of 1: 2 by weight. Vanadium content was 0.42ppm in the extract extracted at the ratio of 3: 3, and vanadium content was 0.30ppm in the extract extracted at the ratio of 1:10 by weight, and other minerals such as manganese, iron, and zinc were included. Comprehensive preparation of vanadium concentrated water for cultivation of nutrient solution using Jeju pine extract, the ratio of cluster and 0.1% citric acid sol.

In the pH concentration adjusting step S12, distilled water is added to the nutrient solution extracted in the extraction step S11 to adjust the pH concentration.

2. The so called stage S20 )

Plant seed is soaked for 3 to 5 hours by using the prepared Jeju pine nutrient solution (functional composition). The plant seeds are seeds in the case of seed propagation plants, stems in the case of stem propagation plants, roots in the case of root propagation plants, and are sources (mediations) for propagation of plants.

As described above, some of the plant seeds may be germinated when soaked in Jeju pine nutrient solution (functional composition). Thus, in the case of plants grown by soaking the plant seeds in Jeju pine nutrient solution (functional composition) in Jeju The plant will contain a large amount of useful components contained in the pine nutrient solution (functional composition).

3. Nutrient growing step ( S30 )

The soaked plant seeds were cultivated using Jeju pine nutrient solution (functional composition) to obtain plants containing vanadium, selenium, zinc and the like.

In the nutrient solution cultivation step (S30), it is preferable to use soaked plant seeds, but it is also possible to use soy plant seeds.

During the cultivation, the plants may be sprayed once every 4 to 11 ml / 100 cm 2 with a sprayer at regular intervals 2 to 12 times a day.

In this case, nutrient cultivation period takes about 4-9 days for short-term crops such as sprout vegetables, and nutrient cultivation period takes more than 10 days for medium and longer crops.

In the case of cultivation of short- and medium-term crops, Jeju pine nutrient solution can be used alone, and it can be mixed with Jeju pine nutrient solution and other nutrient solution.

Figure 2 shows an embodiment of the nutrient solution cultivation using the Jeju pine nutrient solution for cultivation of the present invention, it can be cultivated in a variety of ways, such as (a) to (c) of FIG.

That is, the plant seed (2) called in the nutrient solution cultivation container (1) containing the Jeju nutrient solution cultivation functional composition (3) as shown in Figure 2 (a), can be grown, and the nutrient solution cultivation in Jeju as shown in (b) Plant seeds (2) called nutrient solution cultivation container (1) containing the functional composition (3) and Jeju cluster (4) can be cultivated, and as shown in (c) Plant seeds 2 called nutrient solution cultivation container (1) containing the common stone (5) can be grown.

The plants used are (sprout) rapeseed, (sprout) buckwheat, (sprout) barley, multicolored sprout, (sprout) broccoli, (sprout) bok choy, stevia, red radish sprout, turnip sprout, (sprout) pea, (sprout) cabbage , (Sprout) sapling radish, (sprout) radish sprouts, buttercups, sprouts and the like can be used.

4. Plant obtaining step ( S40 )

As such, plants containing vanadium, selenium, and zinc, which are obtained by nutrient cultivation using the nutrient solution for Jeju cultivation, can be commercialized in various formulations including health drinks through juice extraction and extraction. In addition, it can be taken directly without processing.

In addition, by analyzing the components of the cultivated plant nutrient solution plant containing a large amount of vanadium can be added to the functional material or health (functional) food for prevention and treatment for the purpose of preventing diabetes and improving diabetic disease, Plants containing a large amount of selenium can be added to functional materials or health foods for prevention and treatment for the purpose of maintaining health by anti-cancer effect, skin aging prevention and skin beauty improvement, and blood circulation improvement. Plants containing zinc may be added to functional materials or health foods for the prevention and treatment thereof for the purpose of preventing hair loss and taste deterioration.

When the plant of the present invention is used as a food additive, it can be suitably used according to a conventional method. The amount of the active ingredient to be mixed can be suitably determined according to the intended use (prevention, health or therapeutic treatment).

The health beverage composition of the present invention may contain various flavors or natural carbohydrates, and the like as additional components, as in general beverages. Natural carbohydrates described above are monosaccharides such as glucose and fructose, disaccharides such as maltose and sucrose, polysaccharides such as dextrin and cyclodextrin, and sugar alcohols such as xylitol, sorbitol and erythritol. As the sweetening agent, natural sweetening agents such as tautin and stevia extract, synthetic sweetening agents such as saccharin and aspartame, and the like can be used.

Hereinafter, preferred embodiments of the present invention will be described in order to facilitate understanding of the present invention. However, the following examples are merely provided to easily understand the present invention, and the contents of the present invention are not limited by the examples.

One. Example  : Jeju cluster  0.1% citric acid Extracted with phosphoric acid solution Nutrient production

Jeju clusters (scoria) were divided into sizes, and 20% of 0.1% citric acid (for food additives) was added to 2 kg of clusters of 4 to 6 mesh, extracted at 24 to 100 rpm, stirred for 24 hours, and then filtered.

Jeju nutrient solution prepared in this manner was prepared as shown in Table 3, each of the nutrient solution (functional composition) containing 0.301ppm vanadium, 0.200ppm selenium, 0.099ppm zinc, 0.683ppm manganese and the like.

Contents of main components of functional composition extracted from acidic solution of Jeju pine (unit: mg / ℓ) division Mn Fe Co Ni Zn Pb CD Se V Extracted with 0.1% citric acid 0.683 2.571 - - 0.099 - - 0.100 0.301

2. From Jeju-song  Extracted Nutrient Cultivation  Functional composition ( Nutrient solution )of In addition nutrient solution ratio  Germination Rate of Plants (Budding Rape)

In the above Example, the germination rate of the shoot rapeseed was tested by mixing distilled water in the functional composition (nutrient solution) prepared by extracting Jeju cluster with 0.1% citric acid.

100% of nutrient solution + 0% of distilled water, 75% of nutrient solution + 25% of distilled water, 50% of nutrient solution + 50% of distilled water, 25% of nutrient solution + 75% of distilled water, 0% of nutrient solution + 100% of distilled water The germination rate of shoot rapeseed was tested with five experimental groups.

Sprout rapeseed was added to two Petri dishes (nonwoven fabric + mix ratio) for each experiment group (100 seeds per type), and then put in a plant incubator (temperature 20 ℃, humidity 40-60%) to increase germination rate. After 36 hours, after 48 hours, respectively, the results were obtained as shown in Table 2 below. The rapeseed seeds germinated with the functional composition of Jeju pine extract compared to the distilled water obtained slightly late germination rate, but usually sprout sprouts. The germination rate of was similar to 80 ~ 90%.

Germination Rate of Sprout Rape Depending on the Mixing Ratio of Jeju Pine Extract division 24 hours 36 hours 48 hours 100% by weight of nutrient solution + 0% by weight of distilled water 10 ± 3 40 ± 2 79 ± 2 75% by weight of nutrient solution + 25% by weight of distilled water 20 ± 3 50 ± 2 86 ± 2 50% by weight of nutrient solution + 50% by weight of distilled water 40 ± 3 60 ± 2 86 ± 2 25% by weight of nutrient solution + 75% by weight of distilled water 56 ± 3 70 ± 2 89 ± 2 0% by weight of nutrient solution + 100% by weight of distilled water 70 ± 3 84 ± 3 90 ± 2

3. Jeju Songyi  Extract extracted with acidic solution Nutrient Cultivation  Various Plant Cultivation Used as Composition

A nutrient preparation step (S10) of preparing a nutrient solution required for cultivation of nutrient solution using Jeju pine; A soaking step (S20) for soaking the plant seeds using the nutrient solution (functional composition) prepared in the step (S10); A nutrient cultivation step (S30) of cultivating the plant seeds finished in the step (S20) using the Jeju pine nutrient solution (functional composition) prepared in the nutrient solution preparation step (S10); Plants are cultivated as a plant acquisition step (S40) to obtain a plant obtained by cultivating the process of the step (S30) to obtain the quality by analyzing the main components derived from Jeju nutrient solution.

More detailed configuration is as follows.

Jeju cluster  using For nutrient cultivation  necessary Jeju Songyang  Ready

Jeju clusters were screened by size, and 2 kg of Jeju clusters of 4-6 mesh and 20% solution of 0.1% citric acid (for food additives) were put in a stirrer, extracted at 24 rpm with stirring at 300 rpm, and then filtered to prepare nutrient solution. By adjusting the pH of the prepared Jeju pine nutrient solution to about 6.4 ± 0.3 to prepare a functional composition for Jeju cultivation nutrient cultivation finally used for nutrient cultivation.

Jeju pine Nutrient Cultivation  Soaking plant seeds with the composition

The plants are soaked for 4 hours using the prepared Jeju pine nutrient solution for cultivation.

Soaked  Plant seeds Jeju pine Nutrient Cultivation  As a composition Nutrient Cultivation

The soaked plant seeds are cultivated using the Jeju nutrient solution for cultivation.

At this time, the Jeju nutrient solution for cultivating the cultivation to the plant to be cultivated regularly twice to 12 times a day.

Cultivation period takes 3 ~ 9 days for short-term crops (sprout vegetables, etc.) and more than 10 days for mid- to long-term crops.

Jeju pine Nutrient Cultivation  Using the composition Nutrient solution  plant

Plants are harvested by cultivating 3-9 days for short-term crops and 10 days or longer for mid- to long-term crops.

Harvested plants are analyzed for the content of vanadium, zinc, selenium, etc. in order to ensure the quality of the plants after drying.

5. Jeju pine Nutrient Cultivation  As a composition Nutrient solution  Analysis of Contents of Major Components of Plants

The plants cultivated with the nutrient solution for cultivation of Jeju pine were dried and pretreated by the following method, and the vanadium content was analyzed by ICP-AES to obtain the results as shown in Table 3.

The pretreatment process takes about 0.2500 to 2.000 g of the sample in a Erlenmeyer flask or beaker, adds 10 mL of HNO ₃ solution, and heats / stirres. When the sample is completely decomposed, HNO ₃ is blown out and ₃ mL of HNO _{3 is} added to the Erlenmeyer flask again. After heating, add H ₂ O ₂ until no foam is generated (reaction with organic matter, CO _{2 is} generated), and when the reaction is completed, it becomes a transparent color, and is almost evaporated, cooled, and filled with distilled water to a certain volume (diluted) Do not exceed 50 times the drainage), ICP-AES to analyze the content of the main components such as vanadium.

As shown in Table 5, the rapeseed rapeseeds of plants were 4.2ppm vanadium, 37.3ppm manganese, and 40.8ppm zinc based on dry matters, and that of sprouts cabbage was 2.2ppm and manganese 100.2 based on dry matter. ppm, 77.2ppm of zinc, 10.46ppm of selenium were analyzed. For the bibly sprouts, vanadium was 2.2ppm, manganese 70.2ppm, zinc 42.1ppm and selenium 7.69ppm. In addition, broccoli sprout and the like have been analyzed to have a particularly high vanadium content.

Contents of main components of cultivated plants with nutrient solution for Jeju pine cultivation (Unit: ㎎ / ㎏) division Mn Fe Co Zn CD Pb Se V Sprout rapeseed 37.3 63.1 - 40.8 - - - 4.2 Red radish 23.1 75.1 - 36.2 - - - 1.6 Broccoli sprout 51.5 57.2 - 37.0 - - - 2.9 Colorful 48.8 97.4 - 52.5 - - - 1.6 Turnip sprout 37.3 63.5 - 37.3 - - - 1.6 Sprout 34.2 41.5 - 30.3 - - - 1.7 Sprout cabbage 100.2 91.5 - 77.2 - - 10.46 2.2 Bibimb sprout 70.2 75.3 - 42.1 - - 7.69 2.2 Sour Buckwheat 28.4 23.7 - 20.1 - - - 1.8 Sprouts 13.0 81.9 - 41.0 - - - 1.7 Sprout 31.9 60.1 - 35.6 - - - 1.8 Sprout 31.9 60.1 - 35.6 - - - 1.8

When the nutrient solution containing a lot of useful substances was prepared through the extraction technology of the useful components of Jeju pine using the acidic solution of the present invention, and the nutrient solution was cultivated using the Jeju pine nutrient solution, such as vanadium, selenium, zinc, etc. It contains valuable ingredients, making it possible to use the plant in various industrial ways.

Especially in the case of vanadium-rich plants, it is useful to prevent and treat diabetes, and in the case of plants containing lots of selenium, it is useful as anti-cancer effect, skin health and skin aging, and blood circulation. In the case of zinc-rich plants, it can be usefully used as a material related to hair loss and taste prevention.

1: nutrient container for cultivation 2: soaked plant seeds
3: functional composition 4: Jeju pine
5: general stone

Claims (9)

In the composition for cultivation of nutrient solution of plants using Jeju pine,
Extraction step (S11) for extracting using an acid solution to produce a nutrient solution by mixing the Jeju pine and acid solution, and pH concentration control step of adjusting the pH concentration of the nutrient solution extracted in the step (S11) to 5.5 ~ 7.0 ( S12) functional composition for nutrient cultivation extracted from Jeju pine, characterized in that obtained in. The method of claim 1,
The extraction step (S11) is
A functional composition for nutrient cultivation extracted from Jeju clusters, comprising extracting the components contained in Jeju clusters by immersing or stirring the citrus clusters in citric acid used as a food additive for 12 to 48 hours. In nutrient solution cultivation of plants using Jeju pine,
The extracting step (S11) and the pH concentration of the nutrient solution extracted in the step (S11) and the extraction using the acidic solution to prepare a nutrient solution as a functional composition for cultivating nutrient solution by mixing the Jeju pine and acid solution Jeju nutrient solution preparation step (S10) consisting of a pH concentration adjusting step (S12);
A soaking step (S20) of soaking the plant seeds in the Jeju pine nutrient solution prepared in the step (S10);
A nutrient cultivation step (S30) of cultivating the plant seed called in the step (S20) using the Jeju pine nutrient solution prepared in the step (S10);
Nutrient cultivation method of a functional plant using a functional composition for cultivation nutrient solution extracted from Jeju pine comprising a. The method of claim 3,
The extraction step (S11) is
The nutrient solution of a functional plant using the functional composition for cultivation of nutrient solution extracted from Jeju cluster, characterized by extracting the components contained in Jeju cluster by immersing or stirring the citrus cluster in citric acid used as a food additive for 12 to 48 hours. Cultivation method. The method according to claim 3 or 4,
Seed of the plant in the soaking step (S20) cultivated nutrient solution of the functional plant using the functional composition for cultivation of nutrient solution extracted from Jeju pine, characterized in that it is soaked in the Jeju pine nutrient solution prepared in the step (S10) for 3-5 hours Way. A functional material for the prevention and treatment of the functional material containing vanadium among the functional plants grown by the nutrient solution cultivation method of the functional plant using the functional composition for cultivation of nutrient solution extracted from Jeju pine according to Claims 3 to 5 as an active ingredient. . A functional material for the prevention and treatment of functional plants containing selenium-containing functional plants among the functional plants cultivated by the nutrient solution cultivation method of the functional plant using the functional composition for cultivation of nutrient solution extracted from Jeju pine according to Claims 3 to 5. . Preventive and therapeutic functional material containing zinc as functional ingredient in functional plants grown by the nutrient solution cultivation method of functional plants using the functional composition for cultivation of nutrient solution extracted from Jeju pine according to Claims 3 to 5 . Preventive and therapeutic functional material containing zinc as functional ingredient in functional plants grown by the nutrient solution cultivation method of functional plants using the functional composition for cultivation of nutrient solution extracted from Jeju pine according to Claims 3 to 5 .

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