KR20180078492A - A hatchability improvement method of hybrid eggs of brown marbled grouper and giant grouper - Google Patents

Abstract

The present invention relates to a hatching rate improvement method for fertilized eggs of a hybrid between the brown-marbled grouper and the giant grouper. In particular, the method comprises: a step of conducting artificial insemination between the brown-marbled grouper and the giant grouper to produce fertilized eggs; and a step of hatching the fertilized eggs. In addition, the present invention may provide a hatching rate improvement method for fertilized eggs of a hybrid between the brown-marbled grouper and the giant grouper, which has high hatching rate and survival rate of the fertilized eggs. In addition, the present invention may provide a hatching rate improvement method for fertilized eggs of a hybrid between the brown-marbled grouper and the giant grouper, which has high early seed production efficiency and can contribute to invigorating the fish farming industry.

Description

[0002] The present invention relates to a method for improving the hatchability of a hybrid egg,

The present invention relates to a method for improving the hatching rate of a hybrid egg of a brown spotted berry and an oriental berry, and more particularly, And hatching the embryo. The present invention also relates to a method for improving the hatching rate of a hybrid embryo of a brown barbie and a bong berry.

Barley and fish are the world's favorite fish species, with catches and aquaculture increasing every year.

According to FAO (2015) statistics, fish and fish production in the world is the fourth highest in the world with 137,262 tonnes (2013), followed by growth of 83.7% over five years, with the aquaculture growth rate second.

In the case of aquaculture production, the largest producers are China (60.3%), Taiwan (18.9%) and other Southeast Asian countries (20.6%).

Despite the fact that aquaculture production has grown from 49,476 tons in 2003 to 137,262 tons in 2013, the production of fish is about twice that of aquaculture production. In fact, since the fish collected in nature are included in the aquaculture production, Is high.

The main consumption of barley and fish is in China, Hong Kong, Malaysia, Indonesia and Taiwan, which have been influenced by recent economic growth.

It is estimated that the market for barley and fish is around 3 ~ 7 trillion won annually, mainly in the Chinese territory.

The market for barley and fish in the Greater China region is largely due to the fact that barley and fish have cultural symbolism and prefer barley and fish for entertaining guests at various events such as ceremonies and conventions.

This cultural preference is expected to increase the consumption of barley and fish along with the increase in income due to economic growth.

However, it is expected that the amount of wild barley and fish caught in Southeast Asia, which is the largest wild fish market, will decrease rapidly, which will increase investment in research and development for seed production.

Recently, consumption of hybrids of barley and fish has been increasing, and it is expected that research on the development and breeding of hybrid cultivars will increase.

Hybridization is a technique for producing new species for growth, disease resistance, meat quality, and environmental adaptation, which are important economic traits, as hybridization methods between two species with different genotypes and phenotypes.

In particular, interspecific hybridization has a high probability of obtaining a hybrid stress through a combination of desired traits, and thus various attempts have been made recently (Korean Patent Publication No. 10-1999-0045938, Korean Patent No. 10-0844339, Patent No. 10-2012-0083990).

Among them, the crossbreed of brown spotted bari and bari bari are rapidly growing and enduring, and are attracting attention as future aquaculture resources.

However, there is no research or technology development related to this, so there is a desperate need for a method to increase the hatching rate and survival rate of the hybrid.

Korean Patent Publication No. 10-1999-0045938 Korean Patent No. 10-0844339 Korean Patent Publication No. 10-2012-0083990

The present invention aims to develop a method for improving the hatchability of a hybrid embryo of a brown barbari and a blueberry with high hatching rate and survival rate.

It is another object of the present invention to provide a method for improving the hatchability of crossbred embryos of brown japonica and bombyx mori, which are high in initial seed production efficiency and can contribute to the activation of aquaculture industry.

In order to achieve the above object, the present invention provides a method for producing embryos, comprising the steps of: securing mature eggs in females of Brown japonica; And hatching the embryo, the method comprising the steps of: hatching the embryo;

The present invention also relates to a method for producing embryos, which comprises securing mature eggs in a female of a bamboo plant, securing the semen in a male of a brown beetle, And hatching the embryo, the method comprising the steps of: hatching the embryo;

In one embodiment of the present invention, the embryo hatching step is characterized in that the water temperature of the incubation tank is adjusted to 25 to 31 ° C.

In one embodiment of the present invention, the step of hatching the embryo is characterized in that the salinity of the hatching tank is adjusted to 34 to 40 ppt.

The present invention also provides a hybrid, a fertilized egg, and a larva produced by the above-mentioned improvement method.

The present invention can provide a method of improving the hatchability of a hybrid egg of a brown barbari and a blueberry with a high hatching rate and survival rate.

In addition, the present invention can provide a method of improving the hatching rate of hybrid brown berry and blueberry bred hybrids, which are high in production efficiency of early seedling and can contribute to the activation of aquaculture industry.

In addition, the present invention can enhance the national competitiveness of the Korean aquaculture industry against China, which is the largest producer of barley and sea food seedlings, and can generate huge profits by entering the barley and fish culture market.

Fig. 1 shows the hatching rate and the malformation rate according to the hatching water temperature of the hybrid embryo of the brown spotted berry and the oriental berry.
Fig. 2 shows the hatching rate and the malformation rate according to the hatching salinity of the hybrid obtusa of the brown spotted caterpillar and the caterpillar bark.

Best Mode for Carrying Out the Invention The present invention will be described in detail based on the following examples and drawings. It is to be understood that the terminology, examples, drawings, and the like used in the present invention are merely illustrative of the present invention in order to more clearly illustrate the present invention and to assist the understanding of the ordinary artisan, and the scope of the present invention should not be construed as being limited thereto .

Technical terms and scientific terms used in the present invention mean what the person skilled in the art would normally understand unless otherwise defined.

The present invention relates to a method for producing embryos, which comprises securing mature eggs in females of Brown japonica, securing semen in a male of a Great King bari and artificially correcting the two, And hatching the embryo. The present invention also relates to a method for improving the hatching rate of a hybrid embryo of a brown barbie and a bong berry.

The present invention also relates to a method for producing embryos, which comprises securing mature eggs in a female of a bamboo plant, securing the semen in a male of a brown beetle, And hatching the embryo. The present invention also relates to a method for improving the hatching rate of a hybrid embryo of a brown barbie and a bong berry.

The embryo hatching step is characterized in that the water temperature of the incubation tank is adjusted to 25 to 31 ° C.

The step of hatching the embryo is characterized in that the salinity of the incubation tank is adjusted to 34 to 40 ppt.

The present invention also relates to a hybrid, a fertilized egg and a larva produced by the above improvement method.

Hereinafter, the present invention will be described in detail with reference to examples. The following examples are intended to illustrate the practice of the present invention and are not intended to limit the scope of the present invention.

(Example 1) Hybridization

The egg and semen were extracted from the adult brown dots and male Bari male by abdominal compression method, respectively, and then they were hybridized by artificial fertilization using dry method.

First, to obtain a high-quality mature egg of mature brown jungbari females, the abdomen was observed, and the mature condition was confirmed by touching with the hand.

Luteinizing hormone (LHRH) (Sigma, USA) was injected 25 ㎍ / ㎏ and 1,000 IU / ㎏ of HCG hormone into the peritoneal cavity of female Brown rats.

From the 36th hour after the injection, they were touched by hand at intervals of 4 hours to check the maturity of the mature eggs. Finally, the abdomen was pressed to secure the mature eggs.

The male of the Great King Bari extracted semen with abdominal compression method.

The obtained mature eggs should not be exposed to room temperature for more than 30 minutes. The obtained mature eggs and semen were mixed evenly in the vessel and then placed at room temperature for 1 to 5 minutes, and then the sperm was activated by adding seawater.

After 3 hours of fertilization, it was judged that the cell division was more than 4 cells.

The fertilized eggs were collected and transferred to the incubation tank.

The fertilization rate was calculated from the ratio of the number of embryos in the total mature eggs.

(Example 2) Hatching by water temperature

Hatching and larval rearing were performed in the same manner in the incubation tank.

After incubating 50 eggs per liter in a hatcher, the water temperature was adjusted to 21 ℃, 24 ℃, 27 ℃, 30 ℃ and 33 ℃.

At this time, the salinity of the incubation tank was kept constant at 32ppt.

After completion of hatching, the hatching rate was calculated by counting hatching individuals and dead individuals.

Table 1 shows the hatching rate and malformed rate of hatching embryos of brown spotted caterpillars and giant caterpillars.

Water temperature (℃) 21 24 27 30 33 Hatching rate (%) 0 21.5 ± 5.02 80.5 ± 3.54 87.2 + - 4.24 82.0 + - 3.41 Deformation rate (%) 0 9.5 ± 2.12 5.5 ± 2.12 4.0 ± 1.41 10.8 ± 3.12

The hatching rate of embryos was the highest at 87.2% at 30 ℃, but not hatch at 21 ℃, 21.5% at 24 ℃, 80.5% at 27 ℃ and 82.0% at 33 ℃.

The malformation rate was lowest at 4.0% at 30 ℃, 9.5% at 24 ℃, 5.5% at 27 ℃ and 10.8% at 33 ℃. The higher the water temperature, the lower the malformed rate and the higher the malformed rate after a certain temperature (Fig. 1).

The water temperature of the incubation tank is preferably 25 to 31 ° C, more preferably 29 to 31 ° C. When the water temperature is out of the above range, the hatching rate and survival rate of the embryo are lowered and the malformation rate is increased.

The hatching rate of the embryo is preferably 80.5 to 87.2%, and the malformation rate is preferably 4.0 to 5.5%.

After the hatching, peter was supplied from the 2nd day when the opening was completed.

As the ears grew, the compound feed was supplied with the alfalfa larvae. Filtered seawater was used as the feed water and maintained at exponential rate at the beginning of rearing and 30 ~ 50% per day after the supply of altemia. The excrement in the tank was removed through the siphon from the supply stage of the altemia.

(Example 3) Hatching according to salinity

Hatching and larval rearing were performed in the same manner in the incubation tank.

A total of 50 embryos per liter were placed in the incubation tank and the salinity was adjusted to 24ppt, 27ppt, 30ppt, 33ppt, 36ppt, and 39ppt, respectively, using a 4L beaker.

At this time, the temperature of the incubation tank was kept constant at 29 ° C.

After completion of hatching, the hatching rate was calculated by counting hatching individuals and dead individuals.

Table 2 shows the hatching rate and malformed rate according to the hatching salinity of the hybrid hatchlings of brown spotted caterpillars.

Salinity (ppt) 24 27 30 33 36 39 Hatching rate (%) 0 10.5 ±
3.54 44.5 ±
0.71 55.0 ±
2.83 70.0 ±
2.83 61.1 ±
3.75 Deformation rate (%) 0 9.0 ±
1.41 7.5 ±
0.71 10.0 ±
1.41 8.0 ±
1.41 9.2 ±
4.11

The hatching rate of embryos was the highest at 70.0% from 36ppt, and it did not hatch at 24ppt, and it was 10.5% at 27ppt, 44.5% at 30ppt, 55.0% at 33ppt and 61.1% at 39ppt.

The anomaly rate was the highest at 10.0% from 33ppt and the similarity was 7.5 ~ 9.2% at the other salinity (Figure 2).

The salinity of the incubation tank is preferably 34 to 40 ppt, and more preferably 34 to 37 ppt. When the salinity is out of the above range, the hatching rate and survival rate of the embryo are lowered and the malformation rate is increased.

After the hatching, peter was supplied from the 2nd day when the opening was completed.

As the ears grew, the compound feed was supplied with the alfalfa larvae. Filtered seawater was used as the feed water and maintained at exponential rate at the beginning of rearing and 30 ~ 50% per day after the supply of altemia. The excrement in the tank was removed through the siphon from the supply stage of the altemia.

Claims (7)

Securing the maturity of female Brown Dots, securing the semen from the male of the Great King Bari, producing artificial insemination by artificial insemination between the two; And
And hatching the embryo. The method of enhancing the hatching rate of the hybrid embryo of Brown japonicus and the Great King bari.
Securing mature eggs in female females and securing semen from males of brown spotted females and producing fertilized eggs by artificial fertilization between the two; And
And hatching the embryo. The method of enhancing the hatching rate of the hybrid embryo of Brown japonicus and the Great King bari.
3. The method according to claim 1 or 2,
The step of hatching the embryo
Wherein the temperature of the hatching tank is adjusted to 25 to 31 ° C.
The method of claim 3,
The step of hatching the embryo
A method for improving the hatchability of a hybrid oviduct of a brown spotted boule and a hybrid of a hatchery embryo, characterized in that the salinity of the hatching tank is adjusted to 34 to 40 ppt.
3. A hybrid according to claim 1 or 2,
An embryo to produce the hybrid of claim 5.
A sleeping animal for producing the hybrid of claim 5.

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