KR100220088B1 - Method for producing potato minituber by cultivating potato microtuber in the hothouse - Google Patents

Abstract

The present invention relates to a mass production method of disease-free, fine small tuber seed potatoes (potato minituber) through the wheat shortening and multi-rotational cultivation of artificial seed potatoes (potato microtuber) in the facility house, mass production by the tissue culture technology the method for mass production facilities for the small seed potatoes of average 5~15g after planting plant density to the density of not more than 500 more than 50 per 1 m ² in sterile soil through the cultivation period reduced for 40 to 70 days in the house 1 According to the method of the present invention, which is repeated six times or more times of the year, high-quality disease-free, fine small tuber seed potatoes, which are on average 10 times larger than artificial seed potatoes in a small-area facility house, can be continuously and inexpensively mass-produced throughout the year.

Description

Method of mass production of disease-free, fine tuber mini-potatoes by milling shortening of potato microtuber in facility house and multi-rotation cultivation throughout the year

The present invention relates to a mass production method of disease-free, fine small tuber seed potatoes (potato minituber) through the wheat shortening and multi-rotational cultivation of artificial seed potatoes (potato microtuber) in the facility house, more specifically, artificial seed potatoes The present invention relates to a method for mass production of bovine tuber seed potatoes, which are about 10 times larger than artificial seed potatoes, while maintaining the quality of disease-free artificial seed potatoes by multi-rotational short-cut cultivation within the year.

Potatoes are a plant belonging to the family of branches, mainly for the nutrition propagation by tubers. One of the most serious problems common to most trophic crops is the reduction in yields caused by viral infections, especially in potatoes (Manzer, FE et al., Maine. Am. Patato Jour). , 55 , 609-610 (1978); Korea's seed patato program: International Potato Center, pp 19-24). Therefore, securing disease-free, excellent seeds every year is an important factor in the success or failure of potato farming. To this end, conventionally, a method of producing a seed in an elderly mountainous region with low propagation rate of virus-borne aphids is used. Recently, a method of mass-growing disease-free potato plants that are not infected with viruses has been developed by using a growth point culture technique and a high temperature (38 ° C.) heat treatment technique among recently developed tissue culture techniques. However, even if a large amount of shoots are produced in-flight by this method, in order to produce the necessary seed, the fertilizer produced in the culture vessel must be transplanted into the soil at the last stage. Not only is it very difficult to transplant it into the soil, but in this process, a large number of plants actually die and have a very low rate of success in the soil.

Therefore, as a way to solve this problem, a method of producing artificial seed potatoes (in-flight tubers) and planting them directly with seed potatoes was studied. The artificial seed potato here means that the stems of potatoes are artificially formed by cultivating them on artificial media and giving the appropriate environmental conditions for the culture. It says tuber (diameter 0.5-1.0 cm, weight about 0.2-1.0 g). There have been many reports on the formation of in-situ tubers in tissue culture of potato stems (Garcia-Torres, L. et al., Potato Res., 16 , 73-79 (1973); Abbott, AJ et al., Potato tuber formation in vitro, Plant Tissue Culture and its Agricultural applications , Butterworths, 113-122 (1986)), have also been attempted to produce large amounts of disease-free seeds of potatoes (Wang, PJ). et al., Amer. Potato Jour., 59, 33-39 (1982). However, in case of potatoes, a huge amount of seed potatoes are needed every year, so even if artificial seed potatoes can be used directly as seed potatoes, a huge number of artificial seed potatoes can be rapidly produced in large quantities in small areas and developed to supply farmers at low prices. Without that, there is little practical meaning.

In this regard, the present applicant has developed a breakthrough method that can rapidly produce large quantities of disease-free artificial seed potatoes, which can be used as seed potatoes in potatoes, at least 30 times more efficiently than conventional methods, and supply them to farmers at a lower price than natural seed potatoes. (Korean Patent Publication No. 92-1196), this technology was transferred to an industry in 1992 and has been promoting the practical industrialization. During the practical industrialization process, various trials and errors have been experienced, but the most problematic of them is artificial seed potatoes with a diameter of 0.5-1.0 ㎝ and a weight of about 0.2-1.0 g. It was too small to give farmers anxiety for the end consumer, and also, in actual cultivation, soft shoots rose during the early stage of growth, which was very disadvantageous in the damage caused by various natural disasters and pests, and in competition with the surrounding weeds. Therefore, as a result of continuing research to solve this problem of artificial seed potatoes, the existing artificial seed potatoes were grown for 50 to 70 days after wheat seeding in sterile soil contained in a container of appropriate form in the facility house. It was possible to produce small tuber seed potatoes that were about 10 times larger in size while maintaining the quality, and cheaper production of high-quality, disease-free small tuber seed potatoes in small-area facility houses by continuously operating the facility house six times a year. It has been found that the mass production can be carried out continuously at a cost, thus leading to the completion of the present invention.

An object of the present invention has the same quality as the conventional artificial seed potato, by completely solving the problem that was the only disadvantage of the artificial seed potato was extremely small size of disease-free excellent tuber seed potatoes that are about 10 times larger than the conventional artificial seed potatoes It is to provide a way to produce a large amount of cheaper than.

In order to achieve the above object, in the present invention, the artificial seed potato (potato microtuber) produced by the tissue culture technology and germinated in advance in a high density of 50 to 500 densely per 1 m ² in sterile soil in the facility house After the cultivation step for 50 to 70 days is repeated at least six times a year, it provides a mass production method of disease-free fine tuber (potato minituber).

Hereinafter, the present invention will be described in detail.

According to the present invention, artificial seed potatoes of a size (0.5-1.0 cm in diameter, about 0.2-1.0 g in diameter) produced by tissue culture techniques are sown in sterile soil in a facility house such as a vinyl or glass greenhouse. At this time, the artificial seed potatoes used for sowing are pre-germinated to use physiologically grown artificial potatoes which have a shoot length of 2 times or at least 1 cm or more than the diameter of the artificial seed potatoes. Pre-germinated artificial seed potatoes are planted at least 50 to 500 per 1 m ² and planted in pots, seedling boxes and beds.

The soil used for growing the tuber seed potatoes of the present invention is a mixture of sand: mature organic compost: vermiculite: pearlite in a ratio of 1: 1: 1: 15 at a high temperature of 121 ° C. and a high pressure of 1.3 kg / cm ² . By using sterilized soil in containers for more than one minute, it is possible to fundamentally avoid serial disturbances caused by soil diseases, pest accumulation, etc., which are the biggest problem in plant cultivation. As a result, the facility house can be used repeatedly. In addition, the soil once used for cultivation can be added to the spent organic fertilizer only and then sterilized and reused.

When planting after planting, in order to make full use of the space in the facility house, install a planting table in the form of two or more upper and lower shelves in the facility house. Cultivate 20 days before harvesting at the lower stage.

In wheat uniaxial, multi-rotational cultivation according to the present invention, when the stem of the ground grows more than about 10 cm within 30 to 40 days after sowing, 1 to 10 ppm of benzyl adenine and 10 to 30 ppm of methyl jasmonic acid ( Methyl jasmonic acid) is mixed with one type of growth regulator for promoting tuber formation, and one of two types of growth inhibitors such as hexaconazol and Uniconazol of 10 to 50 ppm In addition to preventing over-spraying and excessive painting of stems by the main surface, it is possible to further promote the engraftment of the tuber seed potatoes in the basement.

In the method of the present invention, the number of days required for harvesting after sowing is within a minimum of 50 days and a maximum of 70 days, preferably around 60 days, depending on the potato variety, and harvested when the size of the tuber seed potatoes reaches an average of 5 to 15 g. do. The harvested tuber seed potatoes are about 10 times the size of the seeded artificial seed potatoes, and the disease-free quality of the artificial seed potatoes is maintained.

By shortening cultivation, the facility house can be operated more than six times a year, so that multi-rotation is possible throughout the year, so that high-quality disease-free, high-quality small tuber seed potatoes can be produced at a low cost throughout the year at low cost.

As described above, the bovine tuber seed potatoes produced in large quantities at low cost by wheat-type, uniaxial cultivation and multi-rotation cultivation according to the present invention are once again in the wheat, uniaxial and multi-rotation cultivation method of the present invention according to the situation. By cultivation, it is possible to repeatedly produce a fine tuber seed potato.

This wheat-type, short-circuit and multi-rotation cultivation method of the present invention is applicable not only to potatoes, but also to the production of seed bulbs such as potato bulb crops (lilies, tulips, etc.) and garlic, sweet potatoes, which have a nutritional propagation form similar to potatoes.

Hereinafter, the present invention will be described in more detail based on the following examples. However, these Examples are only for illustrating the present invention, the present invention is not limited to these.

Example 1 Production of Small Tuber Seeds by Closed-Shortening of Artificial Seeds in Plant Houses and Multi-rotational Cultivation (Laboratory Cultivation)

(Step 1) wheat, short cultivation

The topsoil used for the cultivation was prepared by mixing general sand: mature organic compost: grain thick vermiculite: pearlite with 1: 1: 1: 1 respectively, and the topsoil was prepared at high temperature (121 ° C) and high pressure (1.3 kg / cm ² ). After sterilization for 15 minutes with a sterilizer was used. After filling sterilized top soil 2 cm deep in seedling boxes 50 cm wide, 35 cm wide, and 7 cm deep, artificial seed potatoes of 70 germinated Atlantic varieties per box were 1 cm deep. Sowing was carried out. In this case, the spacings per week were 5 cm in length and width respectively. After sowing, germination began about 5-6 days and watered once every 3 days. When germinated shoots grew and 5-6 sheets of main leaves were formed, a second drum cycle was carried out so that the lower 3-4 leaf nodes were buried in the soil. Potatoes were harvested between 50 and 60 days after sowing, yielding more than 200 small tuber seed potatoes with an average weight of 5 g from a seedling box. Therefore, at least 15 50 × 35 cm seedling boxes could be installed in 1 pyeong (3.3 m ² ), resulting in an average of 5 days after planting 1,050 artificial seed potatoes in 1 pyeong after only 60 days of cultivation. It was possible to produce more than 3,000 disease-free, fine tuber seed potatoes per pyeong.

(Step 2) Multi-turn cultivation throughout the year

In the first stage, six rounds of use were practically possible since the single-rotation period for the production of tuber seed potatoes by wheat cultivation was 60 days (two months). At this time, by using the shading screen and the forced ventilation facility in the summer high temperature unit, the maximum daytime temperature is controlled so as not to rise above 30 ℃, and the high temperature is prevented during the daytime. It was prevented from low temperature disturbance at night. Since the sterilized soil was used in seedling boxes or pots each time, there was no serial disturbance, which was the most fatal problem when the existing facility house was grown, and the facility house was operated 100% without any day off for six rounds of the year. Could. Therefore, more than 18,000 disease-free fine tuber seed potatoes could be produced per year from 1 pyeong by wheat shortening and multi-rotation cultivation.

Example 2 Mass Production of Bovine Tuberized Potato Seeds by Milling, Shortening and Multi-Rotational Cultivation in a 100-Platform Plastic House

It is cultivated for 1 year in the same way as in Example 1 by installing a test vinyl house with an actual planting area of 100 pyeong (120 pyeong if including a passage) in the Biotechnology Research Institute affiliated with the Korea Institute of Science and Technology and adding artificial seed potatoes produced in the culture chamber. It was. As a result, 300,000 tuber seed potatoes were produced per round of cultivation, and in total, over 1,800,000 tuber seed potatoes were actually produced over six rounds per year. This demonstrated the practicality of the milled shortening and multi-rotation cultivation technology of the present invention throughout the year.

According to the present invention, if the artificial seed potato is seeded on sterile soil in the facility house and then short-cut cultivation for 50 to 70 days is carried out at 6 rotations or more in a year, the size is the same as that of the conventional artificial seed potato. Ten times larger disease-free superior tuber seed potatoes can be produced in large quantities at lower cost throughout the year.

Claims (12)

A step of seeding the pre-germinated artificial potato (potato microtuber) produced by the tissue culture technique in a sterile soil in the facility house at a density of 50 or more and less than 500 densities per m ² and cultivation for 50 to 70 days A mass production method of a disease-free superior tuber mini-potato, characterized in that it is repeated at least six rotations per year. The method according to claim 1, wherein the artificial seed potatoes used for sowing are germinated before sowing so that the length of the shoots is 1 times or 1 cm or more of the diameter of the artificial seed potatoes. The method of claim 1, wherein the sterile soil is a mixture of sand: mature organic compost: vermiculite: pearlite in a ratio of 1: 1: 1: 1, 15 minutes at high temperature (121 ℃), high pressure (1.3kg / cm ² ) Method characterized in that the soil sterilized above. The method according to claim 1, wherein only the spent organic fertilizer is added and then sterilized and reused, without discarding the soil once used for cultivation. The method of claim 1, wherein sowing is carried out in a pot, seedling box or bed. According to claim 5, characterized in that the seeded pot, seedling box or bed is grown on the bottom cultivation stage of the shelf type of two or more shelves in the facility house for 20 days after the seeding and 20 days before the late harvest. Way. The method for promoting tuber formation according to claim 1, wherein 2 to 10 ppm benzyl adenine and 10 to 30 ppm methyl jasmonic acid are used before and after 30 to 40 days after sowing. The growth control agent and one of two types of growth inhibitors such as Hexaconazol and Uniconazol of 10 to 50 ppm are mixed and sprayed with foliar to prevent excessive excessive radish at the ground and at the same time A method characterized by promoting engraftment. A method according to claim 1, characterized in that the harvest is carried out when the weight of the tuber seed potatoes is between 5 and 15 g on average. 2. The method of claim 1, wherein the size of the harvested bovine tuber seed is at least 10 times the size of the artificial seed potato used for sowing. The method according to claim 1, wherein after harvesting 50 to 70 days after seeding, the ground stem is removed and harvested. Method of producing a small tuber seed potatoes by repeatedly cultivating the small tuber seed potatoes produced by the method of claim 1 in a wheat shortening and multi-rotation cultivation method throughout the year. The method of claim 1, wherein the method of claim 1 is used for seed production of garlic, sweet potatoes, and other flower bulbs (lily, tulip, etc.).