KR101456629B1 - Mass-production method for seed potatoes - Google Patents

Abstract

The present invention relates to a method for mass production of seed potatoes, comprising a first step of preparing seed potato seedlings into a nutrient solution growing bed, a second step of separating the first effective welfare seeds from the welfare seeds formed in the seed potato seedlings, A third step of separating the second effective welfare before the seeds are formed from the first effective welfare, and a third step of separating the first effective welfare and the second effective welfare, And 5 stages of harvesting the seeds from the seeds, so that a good seed potion infected with the virus can be produced in a short time in a large amount.

Description

[0001] MASS PRODUCTION METHOD FOR SEED POTATOES [0002]

The present invention relates to a method for mass-producing a superior seed pot in a short time.

Potatoes can propagate as true seeds or vegetative propagation, but in practice potato cultivation is dominated by nutritional propagation. The production of potatoes by nutrition propagation is not enough to produce and distribute good seedless seeds, though the yield of seedlings is increased by seeding and cultivating seedless seedless seedlings. However, the supply rate of domestic seeds is only 25-30%. In addition, in the seed plant propagation system, it is difficult to mass-produce the seeds corresponding to the superior species of the basic species, so that only a small amount is produced and supplied to the farmhouse for 4 to 6 years. In addition, there are many opportunities to be exposed to disease and insect pests during the propagation period. Especially, since the probability of infecting with virus increases, shortening of the proliferation period is very important in the supply system of disease free and good seedlings.

In general, the production of seed potatoes can start from the growth point of the potato stem and form a stem. By cultivating the stem in the culture vessel, the stem can be produced by the light-root method and the nutrient solution cultivation method. At this time, the cultured stem is cultivated on a culture vessel, and seed culture can be produced by applying appropriate culture environmental conditions to the growth.

However, the above method is costly, requires a long time, and is difficult to mass produce since the stem is weakened during cultivation.

In order to overcome such a problem, Korean Patent No. 423,837 discloses a method of removing two to three sheets of the seedling seedlings at seven days intervals at the seedling seedling cultivation at the time of cultivation of the seedling juice solution, A method for mass production of seed potatoes from the welfare of a bundle is disclosed.

However, although the above technique can produce large quantities of seed potatoes, this leads to large amounts of welfare, which means that the production is high regardless of quality. That is, due to the time difference of stem descent, corpuscle is caused in the seedling which occurs first, and loss occurs during storage period such as planting period and dormancy period. In addition, since the welfare of a bundle occurs in one plant, many seed potatoes are produced which are not good in poor welfare. As a result, all of the seed potatoes produced using the stem descending method can not be used in total, resulting in a large economic loss.

Therefore, there is a need for a technique capable of mass-producing a disease-free, high-quality seed starter at a low cost and shortening the proliferation period.

It is an object of the present invention to overcome the above-described problems of the prior art, and it is an object of the present invention to provide a method of separating effective welfare from a seed grains repeatedly to obtain a large number of new grains with good quality in a short period of time, .

In order to accomplish the above object, the present invention provides a method for preparing a seed meal, comprising the steps of: A second step of separating the primary effective welfare before the seeds are formed from the welfare formed in the formal seedling seedlings; A third step of recording the first effective welfare on the nutrient solution bed; Separating the secondary effective welfare before the seeds are formed from the recorded primary effective welfare; And a fifth step of harvesting the seed potatoes from the primary effective welfare and the secondary effective welfare.

In addition, in step 6, the secondary efficacy welfare separated in step 4 is recorded in a nutrient solution growing bed, Separating the third effective welfare before the seeds are formed from the recorded third effective welfare; And 8 stages of harvesting the seed potatoes from the primary efficacy welfare, the secondary efficacy welfare, and the tertiary effective welfare.

In addition, in step 9, the third effective welfare separated in step 7 is duly recorded in the nutrient solution growing bed. 10) separating the fourth effective welfare before the seeds are formed from the recorded third effective welfare; And 11 steps of harvesting the seed potatoes from the first effective welfare, the second effective welfare, the third effective welfare, and the fourth effective welfare.

In addition, in step 12, the fourth effective welfare separated in step 10 is recorded in a nutrient solution growing bed. 13) separating the fifth effective welfare before the seeds are formed from the recorded fourth effective welfare; And 14 stages of harvesting the seed potatoes from the first effective welfare, the second effective welfare, the third effective welfare, the fourth effective welfare, and the fifth effective welfare.

A nutrient solution composition containing 3 to 10 ppm of liquid chlorine dioxide (ClO ₂ ) may be supplied to the nutrient solution growing bed.

The nutrient solution composition may have a pH of 5 to 7.

The recording can be performed under the condition that the temperature is 25 占 占 폚, the relative humidity is 80 to 95%, and the light is 4,500 to 5000 lux.

The method of mass production of seminos according to the present invention does not require purification of the tissue culture grains every time by repeatedly performing complete separation of the effective welfare from the semisynthetic grains produced from the tissue culture grains. Therefore, it is possible to produce a good stamina in a large amount in a short period of time from the repeatedly separated effective welfare.

Further, the present invention can produce a seed potato which is short in cultivation time and excellent in quality not infected with virus by using a nutrient solution composition containing liquid chlorine dioxide.

The present invention relates to a method for mass-producing a superior seed pot in a short time.

Hereinafter, the present invention will be described in detail.

A method for mass production of seed potatoes according to the present invention comprises the steps of: 1) seeding seed potato seedlings into a nutrient solution growing bed; A second step of separating the primary effective welfare before the seeds are formed from the welfare formed in the formal seedling seedlings; A third step of recording the first effective welfare on the nutrient solution bed; Separating the secondary effective welfare before the seeds are formed from the recorded primary effective welfare; And 5) harvesting the seed potatoes from the primary effective welfare and the secondary effective welfare.

In the present invention, in order to obtain seed seedlings, seeds of the seedlings that have been tested for viruses are first harvested and cultured. At this time, the growth point can be collected from the top of the germinated germinated seedlings and cultured.

The thus-obtained seed potato seedlings are subjected to a first step of regulating the nutrient solution growing bed.

The above-mentioned nutrient solution growing bed is made by using a styrofoam bed, and the upper plate has a lattice pattern of stainless material. Therefore, it can be used semi-permanently, and the top plate can be used upside down when the seed potato is harvested, so that it can be harvested more quickly and conveniently.

In addition, by covering the top plate of the nutrient solution bed with a black film, it is possible to prevent leakage of the inside and to provide an environment of dark conditions. A small hole is drilled in the black film, so that the seed grains can be dug.

Culturing can be carried out while the seedling seedling is formulated in the nutrient solution growing bed thus prepared, and the nutrient solution composition is supplied.

Specifically, a nutrient solution composition containing MS medium (Murashige & Skoogs Powder) and liquid chlorine dioxide (ClO ₂ ) may be supplied to the nutrient solution growing bed.

The MS medium is generally used for plant culture and may include inorganic compounds such as ammonium nitrate (NH ₄ NO ₃ ), potassium nitrate (KNO ₃ ) and the like.

In order to produce seed potatoes not infected with bacteria, viruses, etc., the nutrient solution composition may contain liquid nutrient composition containing 3 to 10 ppm of liquid chlorine dioxide (ClO ₂ ), preferably 5 ppm.

The chlorine dioxide has a strong oxidizing power and effectively performs sterilizing action against pathogenic bacteria such as bacteria, fungi, viruses, and bacterial spores. In other words, it can sterilize all pathogens through protein denaturation and cell membrane destruction.

Such chlorine dioxide is generally used to sterilize fruits, vegetables and the like at a concentration of about 100 to 200 ppm. However, in the case of using chlorine dioxide at the above-mentioned concentration, it is possible to kill the bacteria in a short time, but the stability is deteriorated due to the strong oxidizing power

Accordingly, in the present invention, by continuously using a small amount of the liquid chlorine dioxide at a low concentration in the above range, it can be prevented from being damaged before production of the seed potato due to strong oxidizing power, and the sterilizing effect can be maximized. In other words, it completely disinfects the moss, fungi and the like present in the nutrient solution composition and seed potato seedlings, and enables the roots to work effectively. Therefore, it is possible to produce robust welfare and quality seed potatoes without virus infection.

In addition, stimulation of stem growth can be stimulated, and welfare growth to be described later can be vigorously promoted, thereby greatly shortening the seedling growing time.

In addition, the nutrient solution composition may have a pH of 5 to 7, and preferably a pH of 5.9.

If the pH of the nutrient solution is less than 5, deficiencies such as calcium (Ca), potassium (K), and magnesium (Mg) may appear and it may be difficult to secure robust welfare. , Phosphorus (P) is insolubilized and the plant can not effectively absorb the nutrient solution composition.

In order to adjust the pH to the range of potassium hydroxide (KOH), phosphoric acid (H ₃ PO _4), nitric acid (HNO ₃₎ used and the like, or ammonium nitrate (NH ₄ NO _3), ammonium phosphate (NH ₄ H ₂ PO ₄ ), and yuan [(NH ₄ ) ₂ SO ₄ ] may be added to the nutrient solution composition, preferably potassium hydroxide (KOH).

In order for the nutrient solution composition to be supplied to the nutrient solution growing bed, a nutrient bottle provided with a circulation motor equipped with a timer can be used. The nutrient bottle is equipped with a timer, so that the nutrient solution composition can be supplied to the nutrient solution growing bed at regular intervals. It is preferable that the nutrient solution composition is supplied at intervals of 3 minutes for 30 seconds.

In addition, by providing a bubble generator in the fluid bottle, the amount of dissolved oxygen in the nutrient solution composition can be increased to promote the growth of the seedfish.

The bubble generator is commonly used in the art, and specifically, an air circulation motor for a fish tank can be used.

In this way, while supplying the nutrient solution composition, it is subjected to two steps of separating the primary effective welfare from the welfare formed in the formal seedless seedling before it is formed.

The semisynthetic seed grains are formulated in a nutrient solution growing bed, and most of the seedy grains are formed in welfare after a certain period of time. At this time, it is possible to separate the primary efficacy welfare of 5 or more of the welfare where no seed potato is formed, that is, the plant stalk of 8 cm or more.

Specifically, the first effective welfare is formed after about 7 to 10 days after the formal seedling seedlings are formulated, and the first effective welfare can be separated and reused as the seedling seedlings of the new nutrient solution cultivation.

The separated primary efficacy welfare is fed to the nutrient solution bed and is recorded in three steps.

The recording can be performed under the condition that the temperature is 25 占 占 폚, the relative humidity is 80 to 95%, and the light is 4,500 to 5000 lux.

If the temperature is lower than 23 캜, the growth rate of the new effective welfare may be slowed from the separated effective welfare. If the temperature is higher than 27 캜, the welfare may be decomposed while the welfare is decomposed. If the humidity is less than 80%, the moisture composition is insufficient and excessive use of the nutrient composition may unnecessarily waste the nutrient solution composition. If the moisture content is over 95%, the moisture may be excessively high and the welfare may be decomposed. If the light is less than 4,500 Lux, the recording time of the effective welfare may be long and the painting may be worried. If the light is over 5000 Lux, the intensity of the light may be too great and the welfare may be drowned.

And separating the secondary effective welfare before the seeds are formed from the recorded primary effective welfare.

The primary effective welfare is duly recorded in the nutrient solution growing bed, and after about 10 days, a new secondary effective welfare is formed and can be separated. The second effective welfare mentioned above can be reused as a seed pot of a new nutrient solution cultivation similar to the first effective welfare.

And five stages of harvesting the seed potatoes from the primary effective welfare and the secondary effective welfare.

Specifically, the primary effective welfare and the secondary effective welfare are partially separated before the seed potato is formed, and the seed potato is formed from the remaining welfare that has not been separated and can be harvested.

The primary efficacy welfare and the secondary efficacy welfare are robust plant stems without seed potatoes. Therefore, it is possible to secure a robust effective welfare as compared with welfare of a bundle formed by the conventional stem descending method, and it is possible to produce a superior seed stump from this.

In addition, since the effective welfare can be repeatedly produced and separated and used as a new seed potato seedlings, the production amount of seed potatoes can be increased.

The effective welfare separation step may further include a third to fifth effective welfare separation step.

Specifically, step 7 is a step of separating the third effective welfare before the seeds are formed from the recorded third effective welfare in step 6, in which the second effective welfare separated in step 4 is formally recorded on the nutrient solution growing bed. And 8 stages of harvesting the seed potatoes from the primary efficacy welfare, the secondary efficacy welfare, and the tertiary effective welfare.

In addition, in step 9, the third effective welfare separated in step 7 is duly recorded in the nutrient solution growing bed. 10) separating the fourth effective welfare before the seeds are formed from the recorded third effective welfare; And 11 steps of harvesting the seed potatoes from the first effective welfare, the second effective welfare, the third effective welfare, and the fourth effective welfare.

In addition, in step 12, the fourth effective welfare separated in step 10 is recorded in a nutrient solution growing bed. 13) separating the fifth effective welfare before the seeds are formed from the recorded fourth effective welfare; And 14 stages of harvesting the seed potatoes from the first effective welfare, the second effective welfare, the third effective welfare, the fourth effective welfare, and the fifth effective welfare.

In this way, the method may further include a step of separating the seed potato from the seedling to the fifth effective welfare, and preferably separating the seed to the third effective welfare.

If the effective welfare is out of the step range, the effective welfare is not strong any more, and the size and the production amount of the semi-finished product are reduced.

In addition, steps 6, 9, and 12 for recording the separated effective welfare are performed under the same condition as step 3 for recording the above-described effective welfare.

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 present invention. Such variations and modifications are intended to be within the scope of the appended claims.

Example 1: Secondary effective welfare

The seedlings were sacrificed at about 8 cm (5 bars) in the superiary seedlings, and seedlings were seeded in a nutrient solution growing bed. Then, using a 400 L nutrient bottle equipped with a circulating motor equipped with a timer, a nutrient solution containing 5 ppm of MS medium and 8 ppm of ammonium nitrate adjusted to 825 mg / L of potassium nitrate and 950 mg / 30 seconds while supplying a small amount of seeds of the seedlings grown about 35cm or more. At this time, the nutrient solution composition was kept at pH 5.9 by adding KOH.

After about 10 days, the seedlings were cut about 8 cm (5 bars) before the seedlings were formed to partially separate the primary effective welfare, and after about 30 days, the seedlings Were harvested.

The separated primary effective welfare was recorded on a bed and irradiated with light of 4,500 lux for 16.5 hours at a room temperature of 25 ° C. Then, about 10 days later, about 8 cm (5 bars) is cut off from the first effective welfare before the seed potato is formed to separate some of the second effective welfare, and after about 30 days from the second effective welfare, And harvested.

At this time, the top plate of the nutrient solution growing bed for forming the semisynthetic seedling, the primary effective welfare, and the secondary effective welfare was a grid pattern structure as described below. The cultivation bed was a styrofoam bed of 130 cm in length, 50 cm in width, and 10 cm in height, and a 1 cm ⅹ 1 cm small hole was drilled in the bed top plate shown in Fig.

[Figure 1]

Example 2: Third Effective Welfare

The same procedure as in Example 1 was carried out except that the third effective welfare was separated by about 8 cm (5 bars) before the seed potatoes were formed from the second effective welfare which had been duly recorded in the nutrient solution growing bed, The seed potatoes were harvested from the tea effective welfare.

Example 3

The same procedure as in Example 1 was carried out except that the seed composition was harvested using the nutrient solution composition except for the liquid chlorine dioxide (ClO ₂ ).

Comparative Example 1: Stem descending method

The supernumerary seedlings were harvested, tissue culture was performed, and about 8 cm (5 bars) was cut to prepare the seedlings. Then, the seedlings were seeded in a nutrient solution growing bed, and irradiated with 5,000 lux light for 20 hours at a growth temperature of 21 ° C. At this time, after the seedlings were seeded, the nutrient composition was fed to the bed at intervals of 3 minutes for 30 seconds. A nutrient solution composition containing MS medium, 0.5 ppm of kinetin and 0.1 ppm of gibberellic acid was added, and a 500 mL nutrient solution bottle was used.

The seedlings were photographed, and when the plant height was about 10 cm, 2-3 lines of the lower leaves were removed using cleanly disinfected scissors. Then, the stem was lowered down into the bed, and the stem was lowered 2 to 5 times at intervals of 7 days according to the size. After a certain period of time, welfare occurred by moving sequentially from the basement to the top, and the seed potatoes were harvested from this welfare.

Test Example

1. Comparison of weight and yield

The seed potatoes harvested in Example 1, Example 2 and Comparative Example 1 were classified into three sizes according to their weights, and their production amounts are shown in Table 1 below.

size Example 1 Example 2 Comparative Example 1 Small (less than 5g) 15 to 19 16 to 21 44 to 69 (5 ~ 20g) 52 to 73 63 to 76 29 to 36 Large (over 30g) 32 to 43 31 to 40 7 to 13

As shown in Table 1, the seed potatoes of Example 1 and Example 2 having a weight of 30 g or more were produced at a rate of about 3 to 5 times or more as compared with Comparative Example 1. Therefore, when cultivated by the method of the present invention, It was confirmed that it can be mass-produced.

2. Cultivation time

The seeding time of seedlings produced in Examples 1, 3 and Comparative Example 1 is shown in Table 2 below.

division Example 1 Example 3 Comparative Example 1 Growing time (days) 30 to 40 90 to 100 100 to 120

As shown in Table 2, it was confirmed that the cultivation time of Example 1 was three times or more that of Example 3 and Comparative Example 1. Particularly, in Example 1, effective welfare is repeatedly separated to secure a large amount of effective welfare, and liquid chlorine dioxide in the nutrient solution composition stimulates the stem growth to activate effective welfare growth, .

3. Viruses and bacterial infections

Approximately 10 days later, the nutrient solution compositions of Example 1 and Comparative Example 1 were cultured in YEP medium and RT-PCR was performed to confirm the presence or absence of bacterial infection. Potato virus X, PVY (Potato virus Y), and PLRV (Potato virus) were added to the nutrient solution bed containing the nutrient solution composition of Example 1 and Comparative Example 1, roll virus), and then confirmed by RT-PCR.

The results of the virus and bacterial infection are shown in Table 3 below.

division Example 1 Comparative Example 1 virus PVX radish U PVY radish U PLRV radish U bacteria radish U

As shown in the above Table 3, it was confirmed that the nutrient solution composition of Example 1 was not infected with viruses and bacteria, and thus it was possible to produce seed potatoes having excellent quality. This makes it possible to secure a clean nutrient solution composition and a healthy welfare as compared with Comparative Example 1 by continuously using a nutrient solution composition containing liquid chlorine dioxide in a small amount to prevent infection of the seedfish from viruses, bacteria and molds I could.

Claims (7)

Step 1 to formulate the seedling seedlings into a nutrient solution bed;
A second step of separating the primary effective welfare before the seeds are formed from the welfare formed in the formal seedling seedlings;
A third step of recording the first effective welfare on the nutrient solution bed;
Separating the secondary effective welfare before the seeds are formed from the recorded primary effective welfare; And
Harvesting the seed potatoes from the primary effective welfare and the secondary effective welfare,
Wherein a nutrient solution composition containing 3 to 10 ppm of liquid chlorine dioxide (ClO ₂ ) is supplied to the nutrient solution growing bed, and the nutrient solution composition is a pH 5 to pH 7 mass production method.
The method according to claim 1, further comprising the steps of: 6) recording the second effective welfare separated in step 4 into a nutrient solution bed;
Separating the third effective welfare before the seeds are formed from the recorded third effective welfare; And
And 8 stages of harvesting the seed potatoes from the first effective welfare, the second effective welfare and the third effective welfare.
The method according to claim 2, further comprising the steps of: 9) recording the third effective welfare separated in step 7 into a nutrient solution bed;
10) separating the fourth effective welfare before the seeds are formed from the recorded third effective welfare; And
And 11 stages of harvesting the seed potatoes from the first effective welfare, the second effective welfare, the third effective welfare, and the fourth effective welfare.
[12] The method of claim 3, wherein the fourth effective welfare separated in step 10 is recorded in a nutrient solution growing bed in step 12;
13) separating the fifth effective welfare before the seeds are formed from the recorded fourth effective welfare; And
And 14 stages of harvesting the seed potatoes from the first effective welfare, the second effective welfare, the third effective welfare, the fourth effective welfare, and the fifth effective welfare.
delete delete The method according to any one of claims 1 to 4, wherein the recording is performed at a temperature of 25 ± 2 ° C., a relative humidity of 80 to 95%, and a light of 4,500 to 5,000 lux.