KR19990075529A - Vegetable nursery liquor composition and its treatment method - Google Patents

Abstract

The present invention relates to a nutrient composition for vegetable seedlings and a method of treating the same, and more specifically, the Korean medium and medium nutrient solution cultivation system and the domestic climate, varieties and growers suitable for the technical level of many crops at different growth stages are grown at once. In this case, the proper nutrient composition and reasonable concentration range were set to facilitate fertilization management, and even if the soil was not soiled, the deficiency of all essential elements did not occur and the price was about 3 to 5 times lower than that of the existing culture solution. It can be distributed to nursery plants and farmhouses, and it provides a user-friendly method of use, which reduces the use of foreign imported fertilizer products, reduces foreign currency, reduces nutrient solution efforts, and stabilizes crops by preventing misuse of fertilizer salts. The present invention relates to a vegetable seedling nutrient composition for maximizing income and a method of treating the same.

Description

Nutrients Composition for Vegetable Seedling and Processing Method thereof

The present invention relates to a nutrient composition for vegetable seedlings and a method of treating the same, and more specifically, the Korean medium and medium nutrient solution cultivation system and the domestic climate, varieties and growers suitable for the technical level of many crops at different growth stages are grown at once. In this case, the proper nutrient composition and reasonable concentration range were set to facilitate fertilization management, and even if the soil was not soiled, the deficiency of all essential elements did not occur and the price was about 3 to 5 times lower than that of the existing culture solution. It can be distributed to nursery plants and farmhouses, and it provides a user-friendly method of use, which reduces the use of foreign imported fertilizer products, reduces foreign currency, reduces nutrient solution efforts, and stabilizes crops by preventing misuse of fertilizer salts. The present invention relates to a vegetable seedling nutrient composition for maximizing income and a method of treating the same.

Conventional crop cultivation method is to cultivate in pure soil. This cultivation method is unstable due to lack of oxygen supply of roots and change of crop's adaptability due to change of temperature and sunshine, and soil used as soil Its main ingredient is kaolin, which is easily deficient in inorganic nutrients, so it is increasing the pollution of the soil due to the abuse of chemical fertilizers used for nutritional supplementation, misuse of pesticides and herbicides, as well as the problems of gold rain, herbicide and herbicide As a result of acidification of soil properties, crop yields have been reduced, which has been pointed out as an obstacle to crop production.

Thus, in recent years, nutrient cultivation technology has been introduced, and this cultivation is also called hydroponic cultivation, and it is a scientific farming technique to supply various cultures containing nutrients necessary for plant growth to grow various crops. To cultivate plants without receiving, it is a solid medium cultivation depending on the medium. It is known as bile solution and thin hydroponic cultivation.

Since 1990, as part of the reduction of production costs, vitalization and stable production of high quality, the vegetable process seedling technology has begun to settle. In other words, the number of fair nursery facilities, which was only one in 1991, increased by 23.5 ha in 1996, and this trend is expected to continue. In addition to these changes in seedling conditions, related industries have also developed, and the automatic seeding system, various plug containers, liquid fertilizer mixing plants and seedling greenhouses, which can be called hardware, have been well-established in the private sector. However, there is still a high import dependency ratio of topsoil and culture medium, and it is not standardized, that is, it is essential technology to make seedlings with good control of fertilization because it uses small pots in process seedlings and soil free seedlings. Since there was no standardized fertilizer composition and commercialized products, different seedlings were used in different seedling plants.

Moreover, the use of foreign cultures or expensive four-pieces cost a lot of production costs or specific nutrient deficiencies, and there are many problems in establishing a proper fertilization system due to the different types of cultures used between nurseries. As a result, the seedling quality gap was severe and the seedling crops were unstable.

In addition, the seedling plant, which is the first to start raising seedlings, caused many trials and errors in fertilization, and it took a lot of time to secure a market as the image of the product worsened as well as the economic loss.

The present invention has been researched and developed in order to effectively solve the problems of the conventional foreign nutrient composition in consideration of the situation of our farmhouse as described above,

An object of the present invention to provide a nutrient solution composition for vegetable seedlings that can provide a superior increase effect compared to the income side of the existing foreign products.

An object of the present invention is to provide a high-quality safety and multiple harvesting than the use of nutrient solution of the existing foreign products to reduce the foreign currency and maximization of farm income by suppressing foreign nutrient products.

An object of the present invention can be used to prepare only two kinds of product fertilizer when preparing a nutrient solution to provide a convenience and minimization of the preparation effort.

The purpose of the present invention is to dilute and use only two liquids containing inorganic ingredients suitable for growth, and thus to prevent misuse of fertilizer salts compared to conventional multi-fertilizer salts. Since the preparation can be used safely, the nutrient solution cultivation is universalized.

The purpose of the present invention is to adjust and use two nutrient solutions according to the seasonal concentration of the nutrient solution is easy to manage the concentration of nutrient solution compared to the existing constant concentration management to provide the maximum prevention of environmental pollution as well as reducing the cost have.

In order to achieve the above object, the present invention obtains the nutrient composition ratio based on the plant analysis values normally grown under the same environmental conditions suitable for growth by sowing four kinds of vegetables on soilless soil, and the powder A, B It provides a method of preparing and classifying the product nutrient solution, but adding water-soluble pigment to prevent the misuse of the A and B product nutrient solution by the dilution ratio and color discrimination.

Hereinafter, the present invention will be described in more detail.

First, looking at the method for determining the concentration of multi-element of the present invention, there are a number of methods for determining the composition of the culture medium, but the method based on the amount of elements absorbed according to the plant analysis, and the composition by the amount of water absorption (n / w) Most methods are used, and there are three opinions on determining the composition of the culture medium.

First, to make it widely applicable to various plants regardless of the growth stage, such as Steiner solution, Japan's raw prescription solution and Korean gardening standard solution,

Secondly, like Yamazaki (Japan) preservatives, they make the best composition for each plant and growing season.

Third, there is a method of forming a high ratio of the corresponding ions when actively absorbing a specific ingredient, such as the Japanese Shisa raw formula.

Regardless of the methods or views mentioned above, however, appropriately formulated cultures must meet the following conditions: In other words, the yield should be high, the quality of the harvest should be good, the fertilizer consumption is low, the price is low, and the high solubility can be used.

Yamazaki (山崎: l982) disclosed several crops, adjusted the concentration of the culture medium to 0.5 ~ 1.5 times, and then measured the n / w (nutrient absorption rate) at 1-2 weeks intervals during the growth period. A good and high water absorption concentration was obtained and expressed as me / l. Moisture was changed according to sunshine, temperature, humidity, nutrient solution system, and growth stage, but nutrients were slightly changed depending on type and growth stage. the composition has to be seen that the bore crop-specific absorbent compositions of the change is not recognized, there is absorption by the equivalent of about the same positive and negative ions, the absorbent composition as compared to me unit NO3 ^- -N ^- ≒ K ⁺ Ca ²⁺ + ^{, PO4 3- -P ≒ Mg 2+,} NO3 - -N -: PO4 3- -P = 3~4: a 1 degree.

In soil cultivation, the leaves, tillage, fruits and roots of well-grown plants are analyzed chemically and the amount of absorbent fertilizer required is indicated. In the case of cultivated plants, a relatively accurate amount of absorption can be measured.

Goodall and Gregory (1974) find out why lobe analysis can be an indicator of plant nutrition. Shear et al. (1946) reported that plant growth is governed by two conditions of nutrition: the balance between ion concentrations and ions, and Kenworthy (1949) found that one ion concentration is influenced by another ion concentration. It was important to achieve. In this way, since all ions in the plant must be balanced to grow normally, the amount of fertilization is determined by finding the proper concentration of each ion in the balanced state.

In determining the optimal concentration of each ion, it is desirable to find it through extensive factor tests such as Smith (1952), but it requires much effort, expense, and time. (1986) has been devised.

Applicant has been conducted in vegetable cultivation and glass greenhouse for many years to obtain the composition ratio of the new nutrient solution, NPK-Ca-Mg = 8-2.4- based on the analysis of plants normally grown under the same environmental conditions suitable for growth The nutrient composition ratio of the multi-element standard composition of 2.4-4.8-1.6 me / ℓ was obtained. For other trace element composition, the concentration of the standard cultivation standard of Korean horticulture was adopted.

Applicant has commercialized the nutrient composition developed to provide convenience to farms to be grown in the future as well as domestic process nursery after the test.

In other words, the present invention is a nitrogen and a total amount of 17-21%, 9-13% water-soluble phosphoric acid, 19-23% water-soluble kali, 5-7% water-soluble kaolin, 21-24% water-soluble calcium, 0.1-2% microelement, It consists of a composition of 0.01 to 1.5% of a water-soluble pigment.

The present invention provides a method of treating 100 to 1000 times the dilution of the composition to the underground and above-ground parts of the plant.

The present invention is also provided to ensure the ease of nutrient solution production by matching the color of the composition with the nutrient solution tank by the water-soluble pigment during nutrient production and fertilization control.

The components used in the present invention are inorganic such as calcium nitrate, ammonium nitrate, calcium nitrate, ammonium phosphate, monobasic phosphate, calcium chloride, boric acid, copper sulfate, zinc sulfate, manganese sulfate, magnesium sulfate, iron chelate, sodium molybdate, etc. As salts, these inorganic salts show that 90-100% is included in the total composition.

The dilution concentration suitable for use in the composition of the present invention is expressed in EC from 1.2 to 1.4 mS / cm, and the diluent is treated in the above-ground and underground parts at different intervals depending on the type of crop, seedling season, growth stage, and container size. Just do it. It is also very effective in promoting the growth of seedlings when fertilizer is scarce even in conventional breeding.

In addition, the present applicant is to solve the difficulties of the preparation of the culture solution in consideration of the level of our farmers and to expand the diffusion of localized nutrient solution culture technology to recognize the nutrient solution culture as a universal farming method of the composition of the present invention A, B agent The formulation was prepared and the composition ratio is shown in Table 1, and the results of testing the pH, EC and solubility of the nutrient composition by the A, B agent is shown in Table 2.

Nutrient Solution for Seedling division Fertilizer salts ratio A made KNO ₃ NH ₄ H ₂ PO ₄ MgSO ₄ Fe-EDTAH ₃ BO ₃ MnSO ₄ ZnSO ₄ CuSO ₄ Na ₂ M ₀ O ₄ Water Soluble Pigment 44.016.735.62.70.540.360.040.0090.0040.047 system 100 B agent Ca (NO ₃ ) ₂ 100

PH, EC and Solubility of Concentration in Raising Seedlings Ship Standard Half volume EC (ms / cm) 2.3 1.3 0.8 pH (at / 25 ℃) 5.7 6.1 6.4 Solubility Good Good Good

Capacity: 1,20Og of agent A, 1,20Og of agent B / 1,000 liters of water

Standard: A medium 60 g, B 60 g / 1,00 liters of water

Half volume: 30Og of agent A, 30Og of agent B / 1,000 liters of water

According to the table, the nutrient solution according to the present invention is EC 0.8 ~ 2.3mS / cm, pH 5.7 ~ 6.4 it can be seen that the nutrient solution is easy to manage when nutrient cultivation for seedlings, and has good solubility.

In addition, as can be seen from the above table, 13 kinds of elements necessary for the growth of crops are essential, and each fertilizer salt must be properly formed with 13 elements necessary.

That is, four types of fertilizer salts for large element composition (KNO ₃ , Ca (NO ₃ ) ₂ 4H ₂ O, MgSO ₄ , 7H ₂ O, NH ₄ H ₂ PO ₄ ) and six types of fertilizer salts for trace element composition (EDTA-Fe, 10 species such as H ₃ BO ₃ , MnSO ₄ 4H ₂ O, ZnSO ₄ 7H ₂ O, CuSO ₄ 5H ₂ O, NaM ₀ O ₄ 2H ₂ O) must be dissolved in water in the amount required by the crop to form a culture solution. will be. However, the composition of these cultures was very difficult in low-tech farms. Therefore, the disadvantage of the preparation can be easily solved by the convenience of preparation by the above-mentioned A, B products.

Looking more closely at the punishment of these preparations,

Dissolve an appropriate amount of fertilizer in each crop in a fixed amount of water to make a culture solution, and then check if it meets the standard EC and pH, then supply it. There is no problem, but more than 300 pyeong every day 300 ~ 6001 a lot of cultures have to be made, so it is inconvenient. Therefore, in actual cultivation, in order to reduce the effort of preparing the culture medium, a high concentration of 100 concentrations of the standard culture solution originally supplied is made and passed through the liquid mixing apparatus. The 100-fold concentration of AB high concentration liquid is diluted with stock solution 1: 100 in the course of passing through the liquid fertilizer, which is a standard culture solution that can be absorbed and used by crops. There is no problem in the concentration of the standard culture solution here, but in high concentrations, Ca (NO ₃ ) ₂ 4H ₂ O and MgSO ₄ 7H ₂ O will form gypsum. You have to melt it. Therefore, the high concentration of the preparation should be separated by AB solution.

Here, the column of water 1 ton 1OO times the concentration _{Ca (NO 3) 2 4H 2} O when dissolved supplying 472g ground water by means of making the concentrated stock solution of concentration and 100 times this available crop is directly absorbed per ton Ca (NO _{3 2} 4H ₂ O 472g x 10000 times = 47.2kg That is, 100 tons of undiluted solution is produced, and the diluent is diluted to the concentration desired by the grower.

In addition, to prevent misuse, adding water-soluble pigments to A and B nutrient solutions to match the color of the nutrient solution tanks, so that only the same color tanks are prepared after the nutrient solution is prepared. . As a result, it is expected that process nurseries and farmers will be able to solve the problem of developing fertilization system and lack of fertilizers at low prices for raising seedlings and improving and accumulating seedlings.

As described in detail above, the present invention has the following effects.

First, the standardization of fertilization management has the effect of improving seedling quality, raising seedling technology, and promoting leveling.

Two, nutrient solution effort reduction (5 to 6 times): 10 to 12 kinds of fertilizer salts should be prepared after weighing in the existing nutrient solution preparation, but only two product fertilizers should be used when using the present invention. Savings.

Third, prevention of misuse of fertilizer salts: Since only A and B liquids containing inorganic ingredients suitable for growth need to be diluted, it is possible to prevent misuse of fertilizer salts compared to conventional nutrient preparations that use a variety of fertilizer salts, and has a low level of technology. Even farmers can use it with peace of mind, making it possible to grow nutrient solutions.

Fourth, avoiding dependence on foreign product nutrient solution: It is possible to reduce foreign currency by restraining the use of foreign product nutrient solution introduced with both sides of import and equipment, and the effect of import substitution of foreign product cultivation solution, that is, existing foreign product costs 12,000 ~ 24,000 won. The invention can reduce the production cost of one ton to less than 5,000 won.

Fifth, easy management of nutrient solution concentration: It is easier to manage nutrient solution concentration than the conventional method because it is prepared by adding or subtracting A and B stock solutions according to seasonal concentration, and it can reduce nutrient solution cost and reduce environmental pollution compared to managing at a constant concentration. .

Claims (7)

Amounts of nitrogen 17-21%, water-soluble phosphoric acid 9-13%, water-soluble girly 19-23%, water-soluble goya 5-7%, water-soluble calcium 21-24%, large and small elements 0.1-2%, water-soluble 0.01-1.5% Nutrient composition for vegetable seedlings in a powdery composition. The method of claim 1, The macroelement is a nutrient composition for vegetable seedlings, characterized in that the composition is composed of inorganic salts such as calcium nitrate, ammonium nitrate, calcium nitrate, ammonium phosphate, monobasic phosphate, calcium chloride, and sulfate. The method of claim 1, The trace element is a vegetable nutrient solution composition, characterized in that the composition is composed of inorganic salts such as copper sulfate, zinc sulfate, manganese sulfate, iron chelate, sodium molybdate, boric acid. The method of claim 1, The composition A is KNO ₃ : 44.O, NH ₄ H ₂ PO ₄ : 16.7, MgSO ₄ : 35.6, Fe-EDTA: 2.7, H ₃ BO ₃ : 0.54, MnSO ₄ : O.36, ZnSO ₄ : 0 _{.O4, CuSO 4: 0.OO9, Na} 2 M 0 O 4 0.004, water-soluble dyes: O.O47 B and the Ca (NO _{3) 2:} vegetables, which comprises raising seedling with 1OO nutrient composition. The method of claim 1, Vegetable nutrient solution composition for adjusting the concentration according to the diluted color of the liquid A, liquid B when the composition of the nutrient solution by the water-soluble pigment. Diluting the composition of claim 1 to 100-1000 times and treated to the underground and above-ground part of the cucumber plant treatment method of vegetable nursery nutrient composition. The method of claim 6, Standard A solution is 7.5% of nitrogen (N), 19.0% of water soluble galley (K ₂ O), 9.5% of water soluble phosphoric acid (P ₂ O ₅ ), 0.2% of water soluble boron (B ₂ O ₃ ), water soluble earth (MgO) 5.5%, water soluble iron (Fe) 0.2%, water soluble manganese (MnO) 0.05%, water soluble zinc (Zn) 0.005%, water soluble copper (Cu) 0.001%, water soluble molybdenum (Mo) 0.0005%, standard B The solution is treated with a nutrient solution composition for vegetable nursery, characterized in that the solution is treated with nitrogen (N) 11.0%, water-soluble calcium (CaO) 22.0%.