KR100398274B1 - Method for producing seedless watermelons - Google Patents

Abstract

The present invention relates to a method of producing a seedless watermelon, the object of the present invention is to solve the problem of thickening of the skin of the watermelon or the generation of cavities, distortion of the shape of the fruit, delayed growth of the cold phase, as well as hormone or radiation It is to provide a method of producing seedless watermelon that can eliminate harmful fertilization due to treatment.

The method of producing seedless watermelon according to the present invention comprises the steps of preparing a triplet, tetraploid, pentaploid, hexaploid, or eightploid watermelon, respectively, by treating colchicine; Sealing pollen of the male flower grown by growing watermelon seeds of 3, 4, 5, 6 or 8 diploids to prevent contamination from other pollen and 3, 4, 5, 6 or 8 on the diploid female flower It consists of pollination and cultivation in the pollen of the embryo.

The method for producing seedless watermelon according to the present invention can produce a watermelon of high quality by solving the problem of thickening of the skin of the watermelon or the occurrence of cavities, distortion of the mold, delayed growth of low temperature, and the like. It can eradicate harmful fertilization due to radiation treatment.

Description

Method for producing seedless watermelons

The present invention relates to a method of producing seedless watermelon, and more particularly, to a method of producing seedless watermelon by polluting a female flower of diploid watermelon with a pollen of drainage.

Watermelon cultivation area in Korea is about 34,500 ha, including 38.3% of open field cultivation area and 61.7% of facility cultivation area. With the increase in facility cultivation, ordinary consumers can enjoy the sweet and cool taste of watermelon at any time of the year.

Seedless watermelon was first made public in Japan in 1951 by Dr. Kihara in 1951.

Three methods are known to produce seedless watermelons.

One of them is the method of Dr. Kihara, who has treated colchicine with common watermelon to make tetraploids, and then pollinated diploid pollen in the tetraploid female flower to produce seedless watermelon seeds (Kihara, H). 1951. Triploid watermelons, Proc. Amer. Soc. Hort. Sci. 50: 217-230.

The second is to treat plant watermelon with plant growth regulator 1- (2-chloro-4-pyridyl) -3-phenylurea (CPPU). Watermelon (Eom, Young-Chul et al., 1995. Effect of Forchlorfenuron Treatment on the Unit Deletion and Quality of Plant-cultivated Watermelons).

The other is to produce seedless watermelons by irradiating and pollinating pollen (Japanese Agricultural News. Development of new diploid seedless watermelon production technology. June 22, 1999).

However, Kihara's method had a problem of poor quality of fruit and delayed cold growth, such as thickening of the skin, hollowing out of the fruit, severe occurrence of cavities, and distortion of the fruit.

In the case of the hormonal treatment method, there was a problem of residual hormonal treatment, and in the case of the radiation treatment method, there was a problem that the harmlessness of the radiation to the human body was not proved yet.

These problems have limited the use of the methods described above. In particular, despite the widespread awareness of seedless watermelon in Korea, the development, production and sale of varieties have not been achieved due to these problems.

An object of the present invention is to provide a method of producing seedless watermelon that can inherit the characteristics of the diploid by pollination of the diploid into the female flower of the diploid watermelon.

Another object of the present invention is to provide a method for producing seedless watermelon easily throughout the year without the delay of low temperature growth by using the pollen of the drainage.

Method for producing a seedless watermelon according to the present invention for achieving the above object is to treat the colchicine aqueous solution to the watermelon seed of the diploid, to obtain a watermelon seed of the tetraploid, grown by cultivating the watermelon seed of the tetraploid Watering a double flower pollen in a female flower to obtain a triple seed, treatment with colchicine aqueous solution to the tetraploid watermelon seed, to obtain the seed of the eight embryo, cultivated by growing the watermelon seed of the eight embryo Moisture of the double flower pollen in the female flower to obtain a seed of 5 diploid, Steps to obtain a seed of 6 diploid by pollinating the pollen of the tetraploid in the female flower grown by cultivating the watermelon seed of 8 diploid. Seal the pollen of the female flower grown by cultivating the watermelon seed of the diploid and the watermelon seed of the 3, 4, 5, 6 or 8 diploid to prevent contamination from other pollen. Occupied by a step and a step of water-in female flowers of the diploid pollen in the 3, 4, 5, 6 or 8 diploids was grown to produce the seedless watermelons.

The diploid watermelon seeds are preferably obtained by crossing watermelons of different varieties.

The present invention relates to a method of producing seedless watermelon by pollination with a pollen of triploid, tetraploid, pentaploid, hexaploid or octaploid in a female flower of the general watermelon (ploploid).

Therefore, a triplet, tetraploid, pentaploid, hexaploid, or octoploid watermelon object is required, and at the time of flowering, the seedless watermelon can be produced by pollinating the seed flower with the pollen of one of these individuals. have.

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

As the initial stage of the present invention, the varieties to be used as diploid varieties and pollen parent are selected. First, the selection of diploid varieties is made by revealing several genetic strains of watermelon strains, and then selecting a portion having appropriate characteristics to investigate and label each of the characteristics. After disclosure of dozens of lines in the same manner as the selection of diploid varieties, colchicine treatment to make drainage, and then select a suitable portion of them to use as a potted plant.

The next step is to hybridize the selected diploid lines to obtain hybrid plants. The purpose of the mating is to obtain watermelons with the desired fruit shape and quality. At this time, perform as many crosses as possible using some of the selected diploids, sowing hybrid seeds made from them, and observe the characteristics such as weight, size, shape, color, texture, and sweetness of fruit. Get

Methods of producing and maintaining each of the drainages are generally known and will be described below.

First, the production of each drain can be obtained using known colchicine treatment methods. By dipping 0.125% colchicine aqueous solution at 25 ° C for 48 hours in diploid watermelon seeds, the growth point of the seed becomes tetraploid (produced seeds of this plant and confirmed by chromosome microscopy). After sowing, the germination is started after 7 to 10 days when the temperature is maintained at about 28 ° C.

After germination, high temperature control (weekly about 30 ℃, nighttime about 20 ℃) grows vigorously, and main leaves are put on this package 3 ~ 4 times. After about 30 days of formality, the female flower (quadloid) comes out and the seeds are tripled by pollination with the desired pollen of watermelon.

The diploid can be obtained by treating colchicine once again with the tetraploid watermelon to make the diploid, then pollinating the diploid pollen in the female flower.

The hexaploid can be obtained by pollinating the tetraploid pollen in the female of the octaploid and vice versa.

The maintenance of a triploid, tetraploid, pentaploid, hexaploid, or octoploid plant for use as a pollen parent is largely possible in three ways.

The most common method is grafting. When grafting of drainage individuals, mainly used as a large tree, sowing about 1 week before the scheduled date of grafting and managing at about 25 ~ 28 ℃, the cotyledons of the night will be developed on the date of grafting. The receptionist cuts off the young stem containing the growth point of the ploidy and cuts off both sides of the stem at an angle of about 20 °. Cut the trunk of the tree to about 1cm in length, call the prepared receptionist, insert the tissue to join, and fix it with a clip. Grafted individuals are planted in flowerpots, avoiding direct sunlight with a light shielding film, and after about 10 days in 25 ° C and saturated humidity conditions, the large tree and the reception are combined to start the growth of the reception. Continued grafting in the above way, it is possible to continue to supply the same pollen without changing the genetic traits.

An alternative method is cutting, in which the stem of a drainage individual includes one or two nodes, cut into the sand, and inserted into the sand to avoid direct sunlight with a shading film. After about 15 days at 25 ° C. and saturated humidity, roots appear and new shoots start to grow. When rooting, it can be faked to purify the seedlings, creating a strong individual.

Another method is cultivation of tissues that can be propagated in-flight, using cotyledon or hypocotyls about 5 days after germination under sterile conditions. Root development by using MS medium and adding 0.1mg / l and 1.0mg / l of plant growth regulators NAA and 1.0mg / l, respectively, to organic shoots and passage in MS or B5 medium without plant growth regulator To promote. When rooting is completed, it is purified to make a complete plant. Tissue culture method is capable of genetically stable mass proliferation without being greatly influenced by the external environment, which is advantageous for the maintenance and propagation of nutrients.

By using the aforementioned methods, it is possible to continuously supply genetically identical pollen throughout the year. During the cultivation process, the drainage (3, 4, 5, 6 or 8 diploids) is delayed at low temperatures compared to the diploid watermelon.

In the present invention, a method of grafting, cutting or tissue culture, which is a method of maintaining the drainage, may be used as a method of asexually breeding hybrid seeds crossed with female flowers.

When mating 3, 4, 5, 6 or 8 diploid watermelons to diploid common watermelons, put a bag on the female and male flowers and be careful when mating so that other pollen does not become contaminated. Care should be taken because other pollen, ie diploid pollutants, are contaminated, resulting in the normal growth of seeds and the creation of watermelons with seeds. After 2-3 days after mating, you can take off the bag.

Hereinafter, the present invention will be described in more detail with reference to Examples, but the scope of the present invention is not limited only to the following Examples.

Example 1

Hybrid seeds obtained by crossing the GCA varieties with good growth at low temperature and TGI varieties with high fruiting temperature in 30 strains selected from the genetically distinct 55 watermelon strains as diploid varieties. After immersion in water at room temperature for about 4 hours, the seeds were seeded at 2 cm intervals for 48 hours in a constant temperature of 28 ° C. After seeding, the seedlings were seeded by grafting using the previously planted and germinated logs. Sealed with vinyl and maintained for 4 to 5 days in a saturated humidity condition at 30 ℃ was managed while gradually lowering the relative humidity at a temperature of 25 ℃. The main leaves of the grafted seedlings were planted when 4-5 sheets were developed, and when the main stems grew by 4-5 stems, they were stalked, and when the stems grew about 40-50cm, the female flowers were cultivated. At this time, the fertilizer was confirmed after lubrication about 15 days after the formulation, and bottle control was sprayed with mango blight, manhal blight and aphid medicine before the meal.

As a pollinated variety, the same method as the selection of the diploid varieties was carried out to disclose 23 watermelons, soaking 0.125% colchicine aqueous solution at 25 ° C. for 48 hours in 10 selected seeds to make tetraploid seeds and sowing. After that, the germination was carried out after 7 to 10 days by maintaining the 28 ℃. After germination, high-temperature control (about 30 ° C per week, about 20 ° C at night) was carried out in the main package when 3-4 sheets of main leaves were developed, and tetraploid seeds were grown in the same manner as the female flower.

The mating of the male flower of the cultivated diploid hybrid seed was used to cover the female flower and the male flower of the tetraploid seed, which is potted, before the flowering. The next day, the male flower of the tetraploid seed was polluted with the female flower of the diploid seed, and then harvested after about 45 days by carrying out general management in a conventional manner.

Example 2

It is harvested by pollination in the same manner using the same pollen as in Example 1, except that the hybrid hybrid seed is obtained by crossing the MKW and elliptical SPB varieties. It was.

Example 3

It was harvested by pollination in the same manner using the same pollen as in Example 1 except that it was obtained by crossing NOA varieties and MDS varieties as a diploid hybrid seed.

Comparative Example 1

Diploid varieties used existing diploid commercial varieties. The potted varieties were the quality of Taiwan's non-productive triplet watermelon (Quality), and after 20 formalities were grown in a plastic house, the pollen of the double-potted pollen was buried in the third female flower. Was carried out. After a few minutes, the crops were harvested in about 45 days by the usual management method.

Comparative Example 2

It was harvested by pollination in the same manner as in Comparative Example 1 using Samba, which is triple-n watermelon, Nantosan.

The properties of the weight, size, shape, and sweetness of the fruit of the seedless watermelon cultivated according to the Examples and Comparative Examples are shown in Table 1.

Table 1 Normal Seeding

Disease resistance: 1; Very weak in disease, 5; Medium, 9; Very resistant to illness

Sugar content: Measured by a refractometer, measured in Brix.

As can be seen in Table 1, the seedless watermelon produced according to the embodiment of the present invention can produce a seedless watermelon that inherits the characteristics of the existing diploid watermelon as it has a thin skin, strong disease resistance and a very high sugar content.

In order to determine the degree of low temperature growth of the seedless watermelon of the present invention, the same varieties and conditions as in Example 1-3 were sown and harvested at a low temperature of one month ago.

Table 2 Sowing at Low Temperature

Comparing the results of Table 2 sown in the cold season with Table 1 in normal sowing, it is possible to produce watermelons with excellent fruit form and sugar content with little delay in the growth of low temperature during the cold dip and the difference of the normal diploid watermelon (not shown). It can be seen that. This is because pollen individuals used as potted plants can sufficiently moisturize only 1/10 to 1/20 of the seeded individuals, so that they are adequately heated and cultivated to reduce the low-temperature growth of conventional seedless watermelons. This can produce seedless watermelons even in winter.

In addition, it is apparent to those skilled in the art that when the individual of the triple or fifth embryo used as a pollen parent in the present invention is pollinated with the normal flower of the diploid, the seedless watermelon can be produced even with the pollen parent.

According to the present invention, by hydrating the drainage pollen in the female flower of the existing diploid watermelon, the characteristics of the diploid are inherited intact, so that the skin of the watermelon is thickened, or the cavity and the distortion of the fruit do not occur, and the seed is not formed. By doing so, it is possible to produce seedless watermelon, which is greatly improved in quality.

In addition, by using the drainage as a potted plant, it is possible to solve the problem of delayed growth at low temperature, so that it is possible to produce a watermelon of high quality easily even in winter, thus eliminating the harmful fertilization due to hormone or radiation treatment of the conventional seedless watermelon. It can be effective.

Although the present invention has been described in detail only in the described embodiments, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical scope of the present invention, and such modifications and variations belong to the appended claims.

Claims (2)

Treating the diploid watermelon seeds with an aqueous colchicine solution to obtain tetraploid watermelon seeds; Cultivating the watermelon seed of the tetraploid and growing the pollen of the diploid in the female flower grown to obtain a seed of the triploid; Treating the tetraploid watermelon seeds with an aqueous colchicine solution to obtain a seed of eight embryos; Cultivating the eight seed watermelon seeds and growing them in a pollen of diploid in the female flower to obtain seed of the diploid; Cultivating the eight seed watermelon seeds and growing the pollen of the tetraploid pollen into a female flower to obtain a seed seed of the diploid; Sealing the pollen of the female flower grown by cultivating the watermelon seed of the diploid and the watermelon seed of the 3, 4, 5, 6 or 8 diploid to prevent contamination from other pollen; And Producing seedless watermelon by pollinating and cultivating the pollen of the 3, 4, 5, 6 or 8 embryos in the female flower of the diploid; Seedless watermelon production method comprising a. The method of claim 1, And said diploid watermelon seeds are obtained by crossing watermelons of different varieties.