KR101966843B1 - Germination method of bluestar seed - Google Patents

Abstract

According to the present invention, there is provided a germination method of an oriental seed having a double-stranded structure including an outer layer 10, an inner layer 20 and an endosperm 30, wherein the outer layer 10 is formed by using the outer layer 10, (S100); A second step S200 of radiating the connective tissue of the endometrial 20 and the endosperm using the connective tissue lymphoma 200; A third step (S300) of washing the seed after the second step (S200); And a fourth step (S400) of cultivating and germinating the seed after the third step (S300). The germination method of the seed seed having a double seed structure is provided.
According to the present invention, it is possible to rapidly and efficiently germinate the clove by chemically eliminating the seed coat without physically removing the seed coat.

Description

[0001] The present invention relates to a germination method of bluestar seed having a double-

The present invention relates to a method for germinating seeds with double seed structure. More specifically, the outer coat of the clove seed having a double seed coat structure is dispersed by using sodium hypochlorite, and the connective tissue of the inner seed coat and the seed coat is dispersed by using concentrated sulfuric acid to promote germination of the seed seed. The present invention relates to a method for germinating seeds of clove.

 Chungyongpul is a plant belonging to the phylum Acerophyceae. It is called "Blue Star". It is a flower of chrysanthemum which is cracked in five pieces.

Chunghyangpul is a plant group with high horticultural value in the world, and demand is increasing in domestic horticulture market recently. In addition, it is known that the herbivorous plants belong to the family, and they are used as anti-inflammatory agents.

In addition, it has recently been found that indole alkaloid-based substances are contained in roots and seeds of clover paste, and further development of metabolites has been started.

It is distributed in Korea, Japan and China. In Korea, it is a rare plant which is distributed only in a limited part of the west coast such as Baekryongdo and Daechung Island. It grows on the edge of mountain, making it difficult to supply it properly.

Techniques for germination of clove seeds have not been developed in Korea and abroad.

In the case of the same genus, the cultivation of seedlings was reported using embryo harvesting. In some farms, seed-softening treatment using open-air stores was applied, but seed germination took several months, germination rate was low, There is a problem that it is difficult to acquire a seedling.

Nonetheless, seed propagation using seeds is very important in terms of plant breeding, selection and conservation, because it allows individuals with various genotypes.

Clover seeds are long oval, about 1cm in length and 0.5mm in width. As shown in FIG. 1, the cross-section of the seed coat is formed of the outer coat 10, the inner coat 20, the endoil 30 and the stern 40.

The thickness of the thick outer dressing 10 varies greatly depending on the position of each seed and seed. The inner coat 20 is adsorbed to the endosperm 30 and exhibits a hard and tough characteristic.

Even if the exocytosis is removed using tweezers, the seeds do not germinate and germinate only when the connective tissues of endosperm and endosperm are destroyed.

Accordingly, when the clove seeds are artificially proliferated without pretreatment, they do not germinate even after more than one year in the natural state. As described above, in order for the clove seed to be germinated, it is required that the outer covering 10 surrounding the inner covering 30 and the inner covering 20 are removed. Accordingly, in order to germinate the clove seeds, it is required to remove the outer coat and the inner coat using tweezers or a blade. In this case, seeds germinate within 1-2 days.

However, the physical seed removal method has a disadvantage in that germination efficiency is low and it takes a lot of time and it is difficult to mass-scale it on a large scale because it can cause injury to the stomach depending on the skill of the practitioner.

Seed germination of seeds that do not germinate due to physical factors such as cloves can be considered as scarification using sulfuric acid (H2SO4), which causes exothermic dehydration and oxidation.

However, in the case of clove seeds, even if immersed in sulfuric acid for 30 minutes or more, most of the outer skin layer is not formed so that moisture is not absorbed into the seed.

On the other hand, when the immersion time is prolonged, sulfuric acid is injected into the inner part of the seed through the thin outer part or the main part to cause loss of the embryo.

Therefore, it is required to study the germination method of clove seeds, which is preceded by removal of the outer coat of irregular thickness.

DISCLOSURE OF THE INVENTION The present invention has been made in order to solve the problems of the artificial germination method of the conventional clove seeds as described above, and it is an object of the present invention to provide a clove To a germinating seed of an oriental seed having a double seed coat structure.

It is another object of the present invention to provide a germination method of clove seed having a double-stranded structure capable of obtaining seedlings at the stage of mass production in order to enable a large amount of cling germination.

It is still another object of the present invention to provide a germination method of clove seed having a double-stranded structure that enables homogeneous germination work quality to be secured by lowering the degree of difficulty of the cling germination work.

According to an aspect of the present invention, there is provided a germinating method of an oriental seed having a double-stranded structure including an outer layer 10, an inner layer 20 and an endosperm 30, (S100) of radiating the radio wave (10); A second step (S200) of radiating the connective tissue of the endometrial tissue (20) and the endosperm using the connective tissue lymphoma (200); A third step (S300) of washing the seed after the second step (S200); And a fourth step (S400) of culturing and germinating the seed after the third step (S300). The germination method of the seed seed having the double seed structure is provided.

In this case, the outer-epithelium lysine solution 100 may include sodium hypochlorite, and the connective tissue lysate 200 may include concentrated sulfuric acid.

The first step S100 may include immersing the seeds in the outer-epithelial saline solution 100. The germination method may be a method of germinating seeds having a double-seeded structure.

The second step S200 may include immersing the seed into the connective tissue dissoluble liquid 200. The germination method may be a germinating seed having a double-stranded structure.

In the first step S100, the seeds are immersed in the outer-epithelial saline solution 100 for 1 hour, and in the second step S200, the seeds are immersed in the connective tissue solution 200 for 5 minutes So that the seeds can be germinated.

According to the present invention, it is possible to rapidly and efficiently germinate the clove by chemically eliminating the seed coat without physically removing the seed coat.

According to the present invention, it is possible to obtain seedlings at the stage of mass production by allowing a large amount of cling germination.

According to the present invention, it is possible to achieve a homogeneous germination work quality by lowering the degree of difficulty of the cling germination work.

According to the present invention, not only the germination rate of the clove seeds is maximized, but also the open field store process can be omitted, and the seedling acquisition time can be drastically shortened.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view of an oriental seed; Fig.
Fig. 2 is a view showing seeds before germination and seeds after germination. Fig.
Fig. 3 is an interior view of a damaged seed through a conventional chemical treatment method; Fig.
4 is a view showing a state in which an outer covering and an inner covering are removed according to the present invention.
5 is a graph showing the germination rate of seeds according to the present invention.
FIG. 6 is a table showing the results of the traits of used seeds in the efficiency test of the seed germination method according to an embodiment of the present invention.
FIG. 7 is a table showing the final germination ratio according to the wave treatment of the efficiency experiment of the seed germination method according to an embodiment of the present invention.
FIG. 8 is a flowchart of an oriental seed germination method according to an embodiment of the present invention. FIG.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exploded perspective view of a germination method according to the present invention; Fig. And redundant explanations thereof will be omitted.

The embodiments described below illustrate some of the various application examples of the present invention, and thus the spirit of the present invention is not limited to the configurations of the embodiments.

It is also to be understood that the terms first, second, etc. used hereinafter are merely reference numerals for distinguishing between identical or corresponding components, and the same or corresponding components are defined by terms such as first, second, no.

In addition, the term " coupled " is used not only in the case of direct physical contact between the respective constituent elements in the contact relation between the constituent elements, but also means that other constituent elements are interposed between the constituent elements, Use them as a concept to cover each contact.

The present invention relates to a method for germinating seeds with double seed structure. However, the present invention is applicable to germination of all seeds having a double seed coat structure as well as an oriental pull grass.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

The method of germinating seeds of clove seeds according to an embodiment of the present invention relates to a germination method of clove seed having a double seed coat structure including outer coat 10, inner coat 20 and seed coat 30, A first step S100 of waving the outer lip 10 using the liquid 100 and a second step S200 of waving the inner lip 20 and the connective tissue of the end oil using the connective tissue lysine 200, A third step S300 of washing the seed after the second step S200, and a fourth step S400 of cultivating and germinating the seed after the third step S300 (FIG. 6).

In this case, the exogenous pleural effusion 100 comprises sodium hypochlorite and the connective tissue lysate 200 comprises concentrated sulfuric acid.

Sodium hypochlorite (NaOCl) is one of hypochlorite which is applied to the bleaching of fiber, disinfection of water, tableware, vegetable, etc., and causes decomposition of fiber structure.

Using the characteristics of sodium hypochlorite, it is possible to efficiently decompose the foreign tissue (10) tissue when the seed of the clove is soaked in sodium hypochlorite (effective chlorine 4% (percent concentration, same as the above)) for 1 hour .

The clone seeds were immersed in sodium hypochlorite for 1 hour to ward the outer cultured tissue 10 (step 1), and the seeds of the outer clone 10 were added to concentrated sulfuric acid (98%) for 3 to 5 minutes It is possible to break the connective tissues of the endosperm 20 and the endosperm 30 (second step).

Seeds that have undergone the treatment up to the second step should be washed in water running for more than one hour (step 3). If the washing is not performed sufficiently after the sulfuric acid treatment, the sulfuric acid remaining on the seed surface may continue to oxidize and may have a negative effect on the germination.

After the third step, the seeds can be cultured on a semi-solid agar medium in a container over 50 mm in depth (step 4).

Since the seeds of the clove that have been treated are germinated and grow very quickly, the depth of the vessel is 50 mm or more, and it is suitable to obtain healthy seedlings by growing without transplanting after germination. In addition, since the agar medium is required to be efficiently used, it is appropriate to dispense the medium to a height of 20 mm or more in the container. Seedlings grown up to 40 ~ 50mm in length are mostly mobilized at the time of transplanting in soil, and it takes 4 to 6 weeks from germination to seedlings.

In the application of the procedure described above, it is preferable to use a volume of 1 ml / lip or more for the treatment of sodium hypochlorite and 3 ml / lip or more for the treatment with sulfuric acid. The use of a small amount below results in damage to the seed due to the generation of the heat of reaction.

Hereinafter, experimental results of the germination efficiency of the seedling germination seed of double seed coat according to one embodiment of the present invention will be described.

[Investigation of seed traits]

In order to demonstrate the effects of the present invention, the clove seeds used in the experiment were collected from native habitats in October 2014, removed from the habitats, and stored at 23 ° C for 1 month.

Seedlings of seeds were randomly sampled in 8 replicates. The fertilization rate was determined by X-ray irradiation with 3 repeats of 30 lips.

The viability was determined by reacting with 1% Tetrazolium solution in a constant temperature bath at 35 ℃ for 2 hours. The size and internal structure of the seeds were measured using a stereomicroscope.

As a result of investigation of the tissues constituting the seeds, it was composed of woody outer coat, thin inner coat, endosperm, strongly absorbed endosperm, and ship. Other measured values are shown in Table 1, and as a result, it was confirmed that the seed quality used in this example was very good (FIG. 7).

[Effectiveness of Mechanical Seed Treatment Using Tweezers]

In order to clarify the physical factors influencing the germination of the clove seeds, we examined the tissue directly affected by the seed coat treatment.

Specifically, i) untreated seeds; ii) seeds from which exocytes have been removed using tweezers and blades; iii) Seed treated with removal of endothelial cells and part of endosperm and endosperm to enable direct connection between the embryo and the outside. The germinated seeds were cultured in 0.8% agar medium at 25 ℃.

i) and ii) did not germinate at all, and in case iii), all the seeds started germination after 1 day. As a result of this Example, it was confirmed that not only the outer coat but also the inner coat and the endive oil interfered with the moisture absorption of the clove seed, and the stomach had to be exposed directly for germination.

[Establishment of chemical watershed condition using sodium hypochlorite and concentrated sulfuric acid]

The possibility of chemical wrinkling of the seed coat was investigated in order to effectively dissolve and limit the germination of the clove seeds. Specifically, the seeds were immersed in sodium hypochlorite for 15 minutes, 30 minutes, 45 minutes, 60 minutes, and 120 minutes, and then immersed in sulfuric acid for 1 minute, 3 minutes, 4 minutes, 5 minutes, and 6 minutes. As a comparative example, sodium hypochlorite and sulfuric acid alone were added to investigate germination rate under 24 conditions.

As a result of the experiment, it was confirmed that the seeds germinated from the condition that the seeds were immersed in sodium hypochlorite for 30 minutes or longer, and it was possible to immerse in sodium hypochlorite for 30 minutes, 45 minutes, 60 minutes and then sulfuric acid for 5 minutes. 5).

On the other hand, when it is immersed in sodium hypochlorite for 120 minutes, immersion in concentrated sulfuric acid for 1 minute or 3 minutes has proved to be effective.

Considering the results of the experiment, it was confirmed that the most effective condition was the case in which sodium hypochlorite was immersed in sodium hypochlorite for 60 minutes and then immersed in concentrated sulfuric acid for 5 minutes. In this case, the final germination rate was found to be 90% or more (FIG. In other cases, it was confirmed that the germination rate was not more than 90%.

In the comparative example, the germination rate was less than 2% in the single treatment, and it was confirmed that the mixed treatment was indispensable for inducing germination of the clove seeds (see FIG. 5).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: exogenous epithelium
200: Connective tissue wart

Claims (5)

A germination method of an oriental seed having a double-stranded structure comprising an outer layer (10), an inner layer (20) and an endosperm (30)
A first step (S100) of waving the outer layer (10) using the outer layer skin (100);
A second step S200 of radiating the connective tissue of the endometrial 20 and the endosperm using the connective tissue lymphoma 200;
A third step (S300) of washing the seed after the second step (S200);
And a fourth step S400 of cultivating and germinating the seed after the third step S300,
The outer layer lipid liquid 100 includes sodium hypochlorite,
The connective tissue dissolution fluid 200 comprises concentrated sulfuric acid,
The first step S100 may include immersing the seed in the outer lipid solution 100,
The second step S200 includes immersing the seed in the connective tissue tissue fluid 200,
In the first step (S100), the seeds are immersed in the foreign matter skin solution (100) for 1 hour,
Wherein the seed is immersed in the connective tissue dissolving solution (200) for 5 minutes in the second step (S200).

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