KR20140128521A - Fertilizer composition containing Peat extract and Chaga mushroom extract - Google Patents

Abstract

The present invention relates to a peat extract composition and a Chaga mushroom extract composition and, more specifically, a fertilizer composition which contains a peat extract and a Chaga extract mixed with a ratio of 40-80:20-60 and increases the growth of plants and the content of β-glucan for fruit by a method for top-dressing the fertilizer.

Description

[0001] The present invention relates to a fertilizer composition containing peat extract and chaga mushroom extract,

The present invention relates to a fertilizer composition containing peat and chaga mushroom extract, which accelerates germination of a plant, accelerates the growth rate, promotes fruit loss, increases the yield, improves the color of the colored fruit, Its main advantage is to increase the content of beta-glucan to produce high quality products and to improve the storage stability of the fruits.

The present invention is based on the fact that black pigment components, various physiologically active components, and beta-glucan components contained in chaga mushroom extract can greatly affect the growth of plants, The main technical features are to prepare a composition for various extracts and to improve the effect and growth of the plant by germination of the plant during germination and fertilization of the leaves during the growing process.

Korean Patent Application 10-2002-0024054 Korean Patent Application 10-2005-0105151 Korean Patent Application 10-2008-0005202 Korean Patent Application 10-2008-0020717 Korea Patent 10-0676132

Proceedings of the 2002 Spring Conference of the Korean Society of Environmental Science (2002), May 01, 422-425

Chaga mushroom extract contains a large amount of beta-glucan, including black pigment, which is immersed in the germination of the seeds and fertilized by the foliar fertilization during the growth of the plant after germination, And to develop a fertilizer composition capable of promoting and increasing the loss of fruit and enhancing its functionality by containing beta-glucan in the obtained fruit.

Corrosive acids and pulp acids are composed of aromatic compounds derived from organic matter and have the characteristic of promoting plant growth. To obtain a synergistic effect as a fertilizer, a method of adding an extraction process for improving beta-glucan in the mushroom extract and maintaining an appropriate composition was tried.

The present invention relates to a method for fertilizing plants, particularly crops, which promotes growth, increases fertility, improves storage stability, and increases the content of beta-glucan in fruit bodies, thereby producing high quality agricultural products can do.

Natural organic materials existing in nature and artificial organic materials flowing into the natural environment are not removed even in various artificial and natural biological treatment processes, and the organic material finally remaining is a humus substance as a humus soil. This humic substance is a high molecular weight polymer substance and is an aromatic compound present in soil or water. Humic substances can also be obtained from peat and lignite, obtained as a refinery residue of sugar beet, and also from lignin.

Humic substances remaining in soil or surface water are largely composed of corrosive carbon, corrosive acid and fulvic acid. When humus is usually present in water, it is called a corrosive substance. When mixed with soil in the soil, it is also called a humus soil. Humic substances are dark brown amorphous substances in the soil organic matter, and remain in the biodegradation process of copper and vegetable materials composed of lignin and protein. Among them, black insoluble matter which is insoluble in alkali is corrosive carbon, which is soluble in alkali but does not dissolve in acid. Blackish brown which is hardly soluble in water is corrosive acid, and light yellow which is soluble in alkali, acid and water is fertic acid. It is known that the corrosive carbon occupies 20 ~ 30% of the humus, and the acid and the poby acid constitute half of the rest.

The soluble acid is extracted with an aqueous solution of pH 6 to 10 and the insoluble matter is removed. The extract of chaga mushroom is obtained by pulverizing chaga mushroom and adding 10 times water to the soluble powder. And the extract is obtained. Beta-glucan of chaga mushroom has a characteristic that it dissolves well in alkali. To extract it, it is recommended to keep the pH of the solution at 6 ~ 10 during extraction. In general, the pH of the mushroom extract is between 4 and 5.7.

The extraction of the mushroom is generally carried out at a temperature of 60 ° C or higher. The insoluble component is removed by filtration to obtain an extract. The extract is concentrated, the solid content is set to 60% (w / w) Tend to be easily pulverized when the solvent is removed. Therefore, in order to maximize the extraction efficiency of the water soluble substance, the peat extract was extracted and concentrated at an extraction temperature of 60 ° C. or higher to prepare an extract.

In the market, peat alkaline extracts of peat extracted with alkali are sold under the name of caustic acid, so that caustic acid can be substituted for the peat alkaline extract of the present invention.

The ratio of the peat alkaline extract to chaga mushroom extract is 40 ~ 80: 60 ~ 14 based on the solid content of the aqueous phase. This is a composition for increasing the content of betaglucan from the growth of plants and mushrooms. When the composition is deviated from the composition, the growth is impeded or the content of beta-glucan is decreased.

Since beta-glucan contained in the mushroom generally has a characteristic of being extracted well from alkali, in the present invention, the peat alkaline extract is first dissolved in water and heated and dissolved so that the solid content is 2 to 20% (w / v) The substance can be removed and the extraction can be carried out by adding mushroom to it. In this case, a large amount of beta-glucan component contained in the mushroom is extracted, thereby maximizing the intended effect of the present invention. That is, in the step of extracting the mushroom as a general extraction step with water, the beta-glucan of the mushroom which is dissolved in the alkali is hardly extracted, whereas in the present invention, the peat alkaline extract is first dissolved in water to prepare an aqueous solution, And the extraction is proceeded, the effect of extracting the beta-glucan of chaga mushroom can be obtained owing to the alkali component contained in the peat alkaline extract. In this case, if the solids concentration of the soluble alkali extract of peat (or the acidic acid) is lower than 2% (w / v), it is disadvantageous in that the economical efficiency is lowered because the excessive concentration of water must be increased after completion of extraction. v), there is a disadvantage in that the extraction yield of the added mushroom is lowered. Therefore, the extraction yield of chrysanthemum mushroom is about 25 ~ 35% (w / w) based on the solid content of extracted peat alkaline extract, and the concentration of solid content is calculated. The extract of the present invention in which the ratio of the water-soluble solid content of the alkali extract to the extracted solid content of the chaga mushroom is controlled can be obtained.

The extract of the present invention can be stored for a long period of time at a concentration of 15 to 30% (w / w) of the solid content in a mixed state in general.

The concentrate concentration of the extract can be used in a wide range of concentrations from 0.01 to 1% (w / w) based on the solids concentration. When the extract is diluted, the pH may be higher than 8 due to the alkaline component derived from the corrosive acid. In this case, an acid may be added to maintain the pH between 6 and 7.5. As the acid used, citric acid, acetic acid, , Acetic acid, etc., and hydrochloric acid, sulfuric acid, etc. may be used. In the case of initial fertilization, the concentration may be diluted and gradually increased.

Applicable crops include crops that can be fertilized, such as rice, barley, pepper, tomato, broccoli, garlic, lettuce, beans, onions and most other agricultural products and forest products and medicinal plants. It is also applicable to bean sprouts. The number of times of application is usually about once every 2 to 5 weeks, and the effect can be increased if the number of times is increased. The content of β-glucan in the resulting products is significantly different according to the number and concentration of fertilizing. If the number of fertilization is increased, rice yields a slightly brownish effect due to fertilization effect when harvested.

The composition of the present invention has a very positive effect on the color, shelf life, hardness and the like of the fruit obtained due to the influence on the growth of the plant. In the case of apples, the color of the fruit is very dark and sharp. In the case of strawberries, it is not easily ripened. In the case of red pepper, the harvest is increased and the color becomes clear. In addition, they showed common storage stability. The composition of the present invention may be applied to rice, barley, wheat, pepper, eggplant, cucumber, pumpkin, broccoli, bean, apple, grape, pear, peach, tomato, cabbage, carrot, potato, It can be applied to various kinds of agricultural products such as spinach, garlic, radish, Chinese cabbage, onion, sweet potato, melon, watermelon, sesame, perilla and lettuce. These agricultural products can be applied by immersing the extract of the present invention in the seed before sowing or by foliar fertilization in the growing process after germination, and the obtained effects include promotion of growth, prevention of disease, increase of tolerance to pests and diseases, An increase in storage stability of the obtained product, and a sharpness of color.

However, since the result obtained in Korean Patent No. 10-0676132 is only the result of using water extract of Chrysanthemum morifolium, when compared with the extract of the present invention, the content of betaglucan in the extract and the increase in yield and yield when applied to crops, , The extract of the present invention showed excellent and excellent results.

Hereinafter, the effects of the present invention will be described in detail by the following examples. However, the following examples do not limit the scope of the present invention.

Example 1. Preparation of the composition

10 Kg of peat (powdery phase) was adjusted to pH 8.5 with caustic soda and 100 L of water was added. After dissolving at 90 ° C for 2 hours, centrifugation was carried out by centrifugation to remove insoluble solids and water was added to adjust the solid content to 5 % (w / v). In order to increase the efficiency of extracting the mushroom, it was divided into 5 parts, and the size of the mushroom was finely chopped to 5 mm or less, and then 225g, 150g, 113g, 90g, and 75g were added and extracted for more than 6 hours at 95 ° C. Insoluble materials were removed by filtration and the obtained extract was obtained to contain water soluble corrosion acid solid: chrysanthemum extract solid content ratio of 2: 1, 3: 1, 4: 1, 5: 1, 6: 1. It was concentrated to give a solid content of 20% (w / w) and used for immersion and fertilization of crops.

At the same time, 50 g of mushroom was added to 2 L of water, and the extract was extracted for 6 hours at 95 ° C (hereinafter referred to as "mushroom extract"). The mixture was mixed with the aqueous solution of solid hydrochloric acid: And the concentration of the whole solid was adjusted to 20% (w / v) to prepare a [control group].

The content of beta-glucan was analyzed using the beta-glucan assay kit of Megazame Co., Ltd. for the above extracts. The results are shown in Table 1 below.

Comparison of Beta Glucan Content (Based on Solids) [Control group] 2: 1 3: 1 4: 1 5: 1 6: 1 Beta-glucan content,% (w / w) 0.15 3.5 2.7 2.1 1.5 1.4

As shown in Table 1, the content of beta-glucan in the extract of the present invention was 0.15: 2.7, which is about 18-fold higher than that of the control group obtained by extracting the mushroom with water.

Therefore, it was confirmed that the method of preparing the aqueous extract of the present invention and preparing the extract of the present invention having a high content of beta-glucan, followed by extracting with a mushroom, is suitable.

Example 2. Confirmation of growth effect

Using the composition of Example 1 as an aqueous solution, glacial acetic acid was added to adjust the pH to 7, and the growth effect was confirmed in rice. The rice was diluted 1,000 times with the 4: 1 composition of Example 1, and the rice seeds were dipped in the rice seeds for 7 days. At 2 weeks after germination, some samples were taken to measure the length of roots. The roots were divided into seven groups containing 100% of chaga mushroom extract. After 3 weeks of germination, Of the composition of Example 1 was diluted 500-fold and fertilized. After one month, planting was carried out. One month later, the length and the color of the leaves were relatively compared . The results are shown in Table 2 below.

Comparison of length of rice Length of rice (Cm) Untreated group 2: 1 composition 3: 1 composition 4: 1 composition 5: 1 composition 6: 1 composition Extract of Chaga mushroom Length of root (Cm) 5.0 ± 1.6 8.5 ± 2.2 10.1 ± 1.5 8.9 ± 1.9 8.5 ± 1.1 9 ± 1.8 6.3 ± 1.2 One week of planting 14 ± 1.6 16 ± 2.1 17 ± 1.8 17.2 ± 1.3 18.1 ± 2.2 18.4 ± 3.2 15.3 ± 3.3 1 month of planting 27.5 ± 4.6 37.2 ± 5.4 38.4 ± 3.2 39.9 ± 3.6 38.2 ± 2.1 38 ± 4.5 32.4 ± 2.8 Leaf color
(To be greeted) One 1.5 1.8 1.8 1.9 1.9 1.2

It was confirmed that when the composition of the present invention was fertilized, the length growth of roots after germination was remarkably increased, which was remarkably improved compared to the control group. In the case of foliar fertilization, when the extract of the present invention was fertilized, rapid growth was accelerated and the leaves became darker. When the extract of Chaga mushroom was applied alone, the composition showed a somewhat lowered growth effect than the composition of the present invention.

Example 3. Analysis of beta-glucan content

The rice of Example 2 was cultivated while being continuously fertilized, harvested after heading, and the content of beta-glucan was analyzed. The results are shown in Table 3 below. The analysis of beta-glucan was carried out using a Beckar Glucan assay kit from Megazyme.

Beta Glucan Content Comparison Untreated group 2: 1 composition 3: 1 composition 4: 1 composition 5: 1 composition 6: 1 composition Extract of Chaga mushroom % (w / w) 0.015 0.35 0.64 0.53 0.45 0.21 0.095

As shown in Table 3 above, the extract of the present invention showed 6.7-fold higher beta-glucan content than conventional extracts of Chaga mushroom extract. This was due to the composition of the water soluble alkaline extract of chrysanthemum extract: the composition of chrysanthemum mushroom extract, and the ratio of water solids solid: chrysanthemum extract solid content of peat alkaline extract was 3: 1.

Example 4. Increase in storage stability

Apple, and strawberry. The fertilizer of Example 1 was fertilized with apples blooming, fertilized once a month as a foliar fertilization, and fruits were stored while observing the progress.

First, the results of the apples were shown next.

100 apples were kept at 10 degrees Celsius and 90% relative humidity while observing progress and counting the number of backed apples. As a result, when the composition of the present invention was fertilized, a very excellent storability improvement effect was shown.

Stability Comparison - Comparison of Number of Backed Apples 0 days 30 days 60 days 100 days Untreated group 0 10 25 40 3: 1 composition fertilization group 0 2 5 10

The fertilizer composition of the present invention can be used for the cultivation of useful plants such as crops and plants.

Claims (8)

Characterized in that the solid content of the peat extract is mixed at a ratio of 0.5 to 6 with respect to the solid content 1 of the mushroom extract.
The fertilizer composition according to claim 1, wherein the pH of the aqueous solution of the fertilizer composition is between 7 and 9.5 based on a solid concentration of 20% (w / v). A fertilizer composition characterized in that the composition of claim 1 increases the content of beta-glucan in agricultural products. In preparing the fertilizer composition according to claim 1,
An extract of the peat alkaline water-soluble extract is obtained by dissolving the peat alkaline extract in water,
Wherein a mushroom is added and extracted to obtain a peat alkaline extract containing a mushroom extract.
The method according to claim 1, wherein the fertilizer composition is applied to the crops by dilution with water, then the pH of the aqueous solution is adjusted to between 6 and 7.5 using an acid and applied to the crop.
The fertilizer composition according to claim 1, characterized in that the fertilizer composition increases the shelf-life of agricultural products.
The fertilizer composition according to claim 1, characterized in that the fertilizer composition increases the color of the fruit.
The fertilizer composition according to claim 1, characterized in that the fertilizer composition increases resistance to pests and diseases of agricultural products.