KR20200144780A - baekdubul with sacbrood resistance - Google Patents

Abstract

The present invention relates to a method for breeding an Apis cerana line having resistance to sacbrood, and Apis cerana F. var. Baekdubeol, a breed resistance to sacbrood, bred using the same. By using the method for breeding honeybees having resistance to sacbrood, or honeybees having resistance to sacbrood bred by the same, it is possible to reduce damage to honeybees caused by sacbrood. With the spread of honeybee varieties which are resistant to sacbrood, Apis cerana industry can secure an income of about 130 billion won and create jobs for about 12,000 people.

Description

Baekdubul with sacbrood resistance {baekdubul with sacbrood resistance}

The present invention relates to a method for breeding a native bee line having resistance to cystoid rot and to a baekdu bee, a breed resistant to cystoid rot, bred using the same.

Currently, viruses that cause disease in bees include Deformed Wing Virus (DWV), Sacbrood Virus (SBV), Black Queen Cell Virus (BQCV), and Israeli Acute Paralysis. Virus; IAPV), Kashmir Bee Virus (KBV), etc. 18 species are known. Cystoid rot was first reported in 1913, and it was characterized in 1964 as one of the serious viral diseases causing disease in bee larvae. Cystoid rot is a Picornavirus belonging to the genus Iflavirus and having a positive strand RNA. Cystoid rot disease occurs in bee larvae, and the symptoms of infected larvae form sacs, gradually decay from yellow to blackish brown, and die without pupa. There is currently no scientifically proven cure for cystic rot. Since 2009, cystoid rot, a viral disease, has occurred and spread to native bees, and more than 90% of native bee rebels have died. After the outbreak of the disease, efforts have been made to control cystic rot by many institutions and scholars. However, due to the nature of the bee virus disease, drug control is impossible and the development of vaccines is not possible, so the disease has occurred and spread throughout the country until now. . Therefore, development of a variety resistant to cystoid rot is required, but in the process of breeding native bees, there have been no cases of breeding cystoid rot resistant strains worldwide, and related experimental techniques have not been developed. Breeding used breeding and disease-resistant strains has been at least 15 years old and has many technical difficulties. Therefore, there is an urgent need for the development of technology necessary for breeding the indigenous bee cystoid rot resistant strain and the development of excellent varieties using the same.

Accordingly, in order to solve the above-described problems of cystic rod rot, the present inventors can shorten the time to breed the native bee disease-resistant varieties and check whether they are resistant to diseases, and use a technology for maintaining the order of the selected lines. Studied. As a result, the artificial insemination technology of the present invention and the technology of indoor larvae breeding, which is a technology for artificially infecting viruses, were developed to improve the efficiency and accuracy of breeding native bees. In addition, by using the artificial insemination technology and larva indoor breeding technology to develop a breeding method of bees having resistance to cystoid rot, from which the present invention was developed by developing a bee that is resistant to cystoid rot. Completed

Accordingly, it is an object of the present invention to provide a method for breeding bees having resistance to cystoid rot, and to provide a method of breeding bees that are resistant to cystoid rot and be bred thereby.

In order to achieve the above object, the present invention comprises the steps of: (a) feeding food containing sacbrood virus to native bees ( Apis cerana ) larvae; (b) collecting surviving rebels; (c) artificial insemination of the bee group in step (b) as paternal and maternal lines, and inbreeding over 7 to 13 generations to fix the resistance trait against cystic carcinoma; (d) selecting a breed having a trait excellent in proliferative ability among the bee groups in which the trait is fixed in step (c) as a first progeny, and selecting a breed having a trait excellent in resistance to cystic rot disease as a second progeny; And (e) the step of crossing the first species as a paternal line, and the second original species as a maternal line; it provides a method for breeding bees having resistance to cystoid rot.

In addition, the present invention provides a cystoid rot resistant bee breeding by the method of breeding bees having resistance to the cystic rot rot.

In addition, the present invention provides a bee having resistance to cystoid rot, and a baekdu bee having the following morphological characteristics.

(1) The body length is medium.

(2) The belly length is medium.

(3) The double width is medium.

(4) The length of the hair is medium.

(5) The head width is large

(6) Abdominal segment length is medium.

(7) The length of the tongue is small.

(8) The mouth is small

(9) Each segment of the leg is small.

(10) The width of each leg is small

(11) The length of the wings is medium.

(12) The width of the wings is medium.

(13) The number of hooks on the wing is 16.3.

(14) The queen bee and the bee are completely black, and the worker bees are black and yellow.

The hook of the wing means a fine projection on the edge of the wing of the bee.

In addition, the present invention provides a baekdu bee bred by the method of breeding bees having resistance to the cystic rot.

If the method of breeding bees having resistance to cystoid rot disease of the present invention or the bee having resistance to cystoid rot disease bred by the method of the present invention is used, it is possible to reduce the damage to bees caused by cystoid rot disease. With the spread of bee breeds that are resistant to cystic rot disease, the native bee industry can secure an income of about 130 billion won and create jobs for about 12,000 people.

1 is a diagram showing the larvae showing symptoms of cystoid rot disease in red.
2 is a diagram showing a part of the artificial insemination process of native bees.
3 is a diagram showing a breeding diagram of Baekdu bee.
4 is a view showing the Baekdubeol Bonggun.
5 is a view showing each portion of the baekdubeol.
6A is a diagram comparing the morphological characteristics of Baekdu bee and general native bee ( Apis cerana ).
6B is a diagram comparing morphological characteristics of Baekdu bee and general native bee ( Apis cerana ).
7 is a diagram showing the results of measuring the number of worker bees in the beegun among the development characteristics of the beegun while breeding the baekdu bees on-site compared to the general native bees bee-gun.
FIG. 8 is a diagram showing the results of measuring the number of pupae in the Bonggun among the development characteristics of the Bonggun while breeding the baekdu bee on-site compared to the general native Bonggun.
9 is a diagram showing the results of measuring the number of larvae in the bee group among the development characteristics of the bee group while rearing the baekdu bee on-site compared with the general native bee bee group.
FIG. 10 is a diagram comparing the temperature of Baekdu bee and general native bee in Bonggun.
11 is a diagram comparing the humidity of Baekdu bee and general native bee in Bonggun.
12 is a diagram showing a breeding diagram of a hallabeol.
13 is a diagram comparing the watertightness of Baekdubeol and Hallabeol.

In order to achieve the above object, the present invention comprises the steps of: (a) feeding food containing sacbrood virus to native bees ( Apis cerana ) larvae; (b) collecting surviving rebels; (c) artificial insemination of the bee group in step (b) as paternal and maternal lines, and inbreeding over 7 to 13 generations to fix the resistance trait against cystic carcinoma; (d) selecting a breed having a trait excellent in proliferative ability among the bee groups in which the trait is fixed in step (c) as a first progeny, and selecting a breed having a trait excellent in resistance to cystic rot disease as a second progeny; And (e) the step of crossing the first species as a paternal line, and the second original species as a maternal line; it provides a method for breeding bees having resistance to cystoid rot.

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

The'cystoid rot' of the present invention is a viral infectious disease that occurs in bee larvae, and the bee larvae afflicted with cystoid rot does not become a pupa and dies and dies.

The resistance to cystic rod rot of the present invention is a trait that prevents the onset of cystic rod rot and refers to resistance to cystic rod rot. The resistance refers to a property that is less susceptible to disease when invaded by a pathogen, and refers to disease resistance to cystic rot.

The step (a) of the present invention may be a step of feeding the food containing the cystoid rot virus to the native bee larva, preferably 2 x 10 ⁵ to 2 x 10 ⁷ PFU/day containing the cystoid rot virus It may be a step of feeding the food to the bee larvae, and more preferably 2 x 10 ⁶ PFU/day may be a step of feeding the food containing the cystoid rot virus to the bee larvae.

The food of the present invention is aldotetros such as erythrose and threose, ribose, lixose, xylose, aldopentose such as arabinose, allose, talos, gulose, glucose, altose, mannose, galactose, ear canal Aldohectose such as aldohectose, ketotetros such as erythrulose, ketopentose such as xylulose and ribulose, ketohexose such as psicose, fructose, sorbose, and ketohexos such as tagatose, trehalose, and kojibis, Α-diglucosides such as nigerose, maltose and isomaltose, β-diglucosides such as isotrehalose, sophorose, laminaribis, cellobis, and genthiobis, α, β-di such as neotrehalose It may contain any one or more selected from the group consisting of glucoside, lactose, sucrose, isomaltulose (palatinose), royal jelly, and yeast, preferably in the group consisting of royal jelly, yeast, glucose and fructose It may include any one or more selected, even more preferably 50% (w / w) royal jelly, 6% (w / w) glucose, 6% (w / w) fructose and 1 to 3% (w /w) It may include yeast, but is not limited thereto.

The step (b) of the present invention may be a step of collecting the live infestation after the step (a), and preferably, it may be a step of collecting the infestation with no symptoms or weakened symptoms of the cystoid rot virus.

The symptom of the cystoid rot virus of the present invention may be a symptom that appears when infected with the cystoid rot virus, and preferably, the larva forms a sac or the larva gradually decays from yellow to blackish brown. have.

The surviving battalion of the present invention may be a battalion resistant to cystoid rot virus.

The step (c) of the present invention may be a step of artificially fertilizing the surviving battalion of step (b) as paternal and maternal line, and fixing the target trait by inbreeding, and preferably the surviving battalion of step (b) It may be a step of artificial insemination using paternal and maternal lines, and inbreeding over 7 to 13 generations to fix the target trait, and more preferably, artificial insemination using the surviving herds of step (b) as paternal and maternal lines, 10 It may be a step in which the target trait is fixed by inbreeding over generations.

The target trait of the present invention may be a proliferative trait or a trait resistant to cystic rot, and preferably, may be a trait resistant to cystic rot.

The artificial insemination of the step (c) of the present invention may include the step of collecting semen in the semen injection tube by pressing the abdomen of the bee capable of mating, and injecting the collected semen by opening the mating device of the queen bee. May include the step of collecting semen in the semen injection tube by pressing the abdomen of the bee 7 to 10 days after birth, and injecting 8 to 10 µl of semen collected by opening the mating device of the queen bee.

The first source species of the step (d) of the present invention may be a variety having a trait having excellent proliferative power and a trait having excellent resistance to cystoid rot, preferably a variety having the H1640 lineage name of the present invention.

The second progeny of the step (d) of the present invention may be a variety having a trait superior in resistance to cystic rot rot, and preferably a variety having a trait superior in resistance to cystic rot rot than the first progeny. And, preferably, it may be a variety having the R1645 line name of the present invention.

The original species of the present invention refers to a pure seed that has not been genetically changed as a breeding bee that serves as a source for breeding a honeybee desired by a producer.

The bee produced through the breeding method of the present invention may be a bee having a resistance trait to cysticercosis rot, preferably a bee having a resistance trait to cystoid rot, preferably having the following morphological characteristics.

(1) The body length is medium.

(2) The belly length is medium.

(3) The double width is medium.

(4) The length of the hair is medium.

(5) The head width is large

(6) Abdominal segment length is medium.

(7) The length of the tongue is small.

(8) The mouth is small

(9) Each segment of the leg is small.

(10) The width of each leg is small

(11) The length of the wings is medium.

(12) The width of the wings is medium.

(13) The number of hooks on the wing is 16.3.

(14) The queen bee and the bee are completely black, and the worker bees are black and yellow.

According to the breeding method of bees having resistance to cystoid rot of the present invention, it is possible to shorten the breeding time of breeds resistant to cystoid rot, it is possible to check the resistance to diseases, and to maintain the order of the selected varieties. I can.

According to the breeding method of bees having resistance to cystoid rot of the present invention, it is possible to breed bees having complete resistance to cystoid rot, weak distribution, watertightness, pollen collecting power, and excellent breeding of bees.

In addition, the present invention provides a cystoid rot resistant bee breeding by the method of breeding bees having resistance to the cystic rot rot.

The honey bees resistant to the cystoid rot of the present invention have complete resistance to the cystoid rot, the distribution is weak, and the watertightness, pollen collecting ability, and the growth of the bee population are excellent.

The bees manufactured through the breeding method of the present invention may be bees that stably maintain the temperature in the beegun, and preferably, bees that maintain the temperature in the beegun at 35.3 to 35.7°C.

The bees manufactured through the breeding method of the present invention may be bees that stably maintain humidity in the bee, and preferably, bees that maintain the humidity in the bee at 50.5 to 57.3%.

In addition, the present invention provides a bee having resistance to cystoid rot, and a baekdu bee having the following morphological characteristics.

(1) The body length is medium.

(2) The belly length is medium.

(3) The double width is medium.

(4) The length of the hair is medium.

(5) The head width is large

(6) Abdominal segment length is medium.

(7) The length of the tongue is small.

(8) The mouth is small

(9) Each segment of the leg is small.

(10) The width of each leg is small

(11) The length of the wings is medium.

(12) The width of the wings is medium.

(13) The number of hooks on the wing is 16.3.

(14) The queen bee and the bee are completely black, and the worker bees are black and yellow.

The baekdu bee of the present invention may be bred by the method of breeding bees having resistance against the cystic rot of the present invention.

The baekdu bee of the present invention may be a bee stably maintaining the temperature in the beegun, and preferably, it may be a bee maintaining the temperature in the beegun at 35.3 to 35.7°C.

The baekdu bee of the present invention may be a bee stably maintaining the humidity in the bee, preferably a bee maintaining the humidity in the bee at 50.5 to 57.3%.

The baekdu bee of the present invention has complete resistance to cystoid rot, weak distribution, and excellent watertightness, pollen collecting power, and development of a bee colony.

The baekdu bee and the original species of the baekdu bee of the present invention are maintained and preserved in the experimental bee farm of the National Academy of Agricultural Sciences of the Rural Development Administration.

Accordingly, the baekdu bee of the present invention may be sold in the form of a distribution of baekdu bee or Wonjongbong, which is a popular species, preferably by designating a breed to encourage bees and requesting sales according to supply guidelines.

In addition, the present invention provides a baekdu bee bred by the method of breeding bees having resistance to the cystic rot.

The baekdu bee bred by the method of breeding bees having resistance to cystoid rot of the present invention has the same characteristics as the baekdu bee described above, and overlapping contents are omitted to avoid the complexity of the description.

Redundant content is omitted in consideration of the complexity of the present specification, and terms not otherwise defined herein have meanings commonly used in the technical field to which the present invention belongs.

Hereinafter, the present invention will be described in detail by examples.

Example 1. In-larval breeding method for selection of disease-resistant strains of native bees

1.1 How to prepare larval feed

The technique of rearing larvae for selection of disease resistant strains was performed as follows. Fresh royal jelly collected from Western honeybees has a concentration of 50% (w/w), glucose (glucose) and fructose (fructose) are 6% (w/w), and yeast has a concentration of 1 to 3% (w/w) It was mixed with sterile water so that the final volume was 100ml. For artificial viral infection, sterile water with a concentration of 2×10 ⁶ PFU of cystoid rot virus was used. The prepared food was discarded after use on the same day.

1.2 How to breed larva indoors

50 µl of the food prepared in Example 1.1 was added to a 48-well plate, and the larvae of the worker bees 3 to 4 days old were transferred to the plate using a larva. A solution obtained by mixing sterilized water and sulfuric acid with a sulfuric acid concentration of 10% (v/v) evaporated to maintain 60% humidity, and cultured by placing the plate after replanting in an incubator capable of maintaining a temperature of 34 to 35°C. Food supplied on the first day was cleanly removed, and from the second day, 100 µl of food was supplied every day. After changing food every day, the larvae form sacs and gradually decay from yellow to blackish brown, and through symptoms appearing in the larva, the occurrence of cystic rot was confirmed to confirm the resistance of cystic rot. . The larvae showing the symptoms of cystoid rot are shown in red and shown in FIG. 1.

Example 2. Artificial insemination method for native bees

In order to maintain the order or for the purpose of hybrid production test, the back of newborn bees were painted for identification. From then, after 7 to 10 days, which is the mating period, which is possible for mating, bees with paint were collected. Semen in the semen injection tube was collected by pressing the abdomen of the collected bee. Indigenous bee bee semen is very small compared to western bees and is widely spread. Therefore, it is necessary to work very carefully so that the mucus in the lower part of the semen does not get on the collector. When enough semen was collected, the uncoated queen bee was placed in an artificial insemination device, anesthetized using carbon dioxide, and then 8 to 10 µl of semen was injected by opening the mating device. The mating machine of the native bee queen bee differs from the mating machine of Western bees, and there is a structural difference without a lid. Therefore, when semen is injected, it must be injected very slowly and when the injector is removed, the injected semen does not elute outward. After artificial insemination, the queen bee was placed in a royal farm and stored in a beehive for one day, and the next day, carbon dioxide was treated for 10 minutes and released into the beehive. The spawning start date of artificially inseminated queen bees tends to be 2 to 4 days later than in the case of natural mating. Some of the artificial insemination process of native bees is shown in FIG. 2.

Example 3. Breeding of cystic rot-resistant varieties

3.1 Selection of candidates for resistant strains for breeding of cystoid rot resistant varieties

Cystoid rot resistant varieties were bred as follows. Bongguns that survived the outbreak of cystic rot were collected from 10 regions (Yangpyeong, Gumi, Icheon, Pyeongchang, Gongju, Gangjin, Cheongju, Jeonju, Tongyeong, and Imsil). Thereafter, the collected beons were reared by the method of in-larvae breeding of Example 1, and the resistance of each bee group was confirmed to be resistant to cystoid rot, and finally, 4 lines (Gumi, Icheon, Tongyeong, Gangjin) were initially selected.

3.2. Breeding of Baekdu bee, a breed resistant to cystic rot disease

3.2.1 Breeding process of Baekdu bee, a cultivar resistant to cystoid rot

The four breeds of breeding group selected in Example 3.1 were bred by combining each of the four breeds selected in Example 3.1 and bred with the breeding method in the larva of Example 1, and the resistance of the cystoid rot of each bat was confirmed, and 24 matings Among the combinations, two batons with excellent resistance were selected. The selected Bongguns are the first Bonggun, with the Gumi Bonggun as the mother line, the Icheon Bonggun as the paternal line, and the 2nd Bonggun with the Tongyeong Bonggun as the paternal line, and the Gangjin Bonggun as the paternal line.

The first and second peaks were inbred over 10 generations using the artificial insemination method of the native bee of Example 2 in order to fix the traits for the resistance traits of cystic rod decay, respectively, and the trait was fixed through 10 generations inbreeding. The 1st and 2nd peaks were selected as the original species of the cultivar resistant to cystoid rot, and were named H1640 (first species) and R1645 (second species), respectively. H1640 has a somewhat lower resistance to cystoid rot than R1645, but has an excellent proliferative trait, and R1645 has excellent resistance to cystic rot, but rather low proliferation. Baekdu bee, a cultivar exhibiting complete resistance to cystic rot disease, was bred using H1640 as a paternal line and R1645 as a maternal line. Fig. 3 shows the breeding diagram of Baekdubeol and Fig. 4 shows the Baekdubeol Bonggun.

3.2.2 Analysis of morphological characteristics of Baekdu bee, a cultivar resistant to cystic rot disease

The morphological characteristics of Baekdu bee were analyzed by comparing with general native bees. General native bees purchased and used varieties conventionally raised by general breeding farms. The queen bee and the male bee of the baekdu bee are completely black, and the worker bees are in the form of black and yellow nodes. The body length, belly length, belly width, and head length of the Baekdu bee are similar to that of the general native bee. The head width is significantly larger for the Baekdu bee, and there is no significant difference in the length of each belly segment. The length of the tongue, the length of the mouth, and the width and length of each segment of the leg are large, and the length and width of the wings are similar. The number of hooks on the wing is 18.3 for general native bees, while 16.3 for baekdu bees.As the number of hooks on the wing shows a difference between baekdu bees and general native bees, it can be used as a morphological marker to identify baekdu bees. . Figures for each part of the baekdu bee are shown in FIG. 5, and the morphological characteristics of the baekdu bee and the general native bee are compared in FIGS. 6a and 6b.

3.2.3 Verification of resistance to cystic rod rot disease of Baekdu bee, a breed resistant to cystic rod rot

An experiment was conducted to confirm the resistance of Baekdu bee to cystoid rot. Specifically, cystoid rot was artificially exposed to Baekdubeol Bonggun, H1640 Bonggun, and general native bee Bonggun, and the number of bees in the Bonggun was measured, and it is shown in Table 1.

kind Number of worker bees before disease infection Number of worker bees after infection 15th 30 days 45 days H1640 7220±210.5a 7680±163.4a 6684±268.7a 5929±314.1a Baekdu Bee 7211±263.2a 7965±174.5a 6939±215.1a 6438±206.2a General native bee 6597±127.7ab 6785±253.4b 2833±202.6b 1277±66.6b F significance probability 2.95ns 9.38* 99.47** 166.58** Least Significant Difference (LSD05) 604 584 669 639

As shown in Table 1, the decrease in the number of bees in the resistant strain of Baekdu bee did not decrease significantly, but it was confirmed that 80% of the normal native bees, the control group, decreased after 45 days. Therefore, it was confirmed that the Baekdu bee has resistance to cystoid rot.

3.2.4 Resistant to cystic rot rot during field rearing of Baekdu bee, a breed resistant to cystic rot

An experiment was conducted to confirm whether or not the resistance of Baekdu bee to cystic rot disease appeared even during field rearing. As a test group, one reared beehive with cystoid rot was placed in 72 groups of the Baekdu bee bonggun, and one of the two beehives with cystoid rot was placed in 72 normal native bee breeding groups as a control group. I did. The developmental state of the test group and the control group was observed over about 73 days, and the developmental progress is shown in Table 2.

Date Test group Control Remark Day 1 Baekdu bee + 1 honeycomb Normal native bee + 1 honeycomb Day 15 Diagnosis of cystic rot disease Diagnosis of cystic rot disease Day 20 clear Incineration treatment Control: Group 72 incineration Day 21 clear Outbreak of disease After resolving infection, normal spawning Day 31 clear Day 39 clear Day 42 clear Day 61 clear Day 73 clear

As shown in Table 2, normal native bees, the control group, were diagnosed with cystic rod decay on the 15th day, and were incinerated on the 20th day because they could not overcome the disease, and the whole group was closed. On the other hand, even though Baekdu bees were reared in a honeycomb with cystoid rot, they cleaned the beehives within an average of about 5 days after entering the disease-occurring honeycomb and confirmed that they were normalized. Could In addition, it was confirmed that the Baekdu bee produced queen bees during the breeding period, and 23 groups were further proliferated by self-proliferation. In addition, the queen bee of the bee, which was self-proliferated by Baekdu bee, mate with the normal native bee bee infected with cystoid rot, and the newly proliferated bee also showed the characteristic of recovering after the symptoms of cystoid rot. Confirmed.

3.2.5 Confirmation of the development characteristics of Baekdu bee, a breed resistant to cystic rot disease

While raising the baekdu bee on site, the development characteristics of the bee group were measured by comparing it with the general native bee bee group. Specifically, while rearing from March to July, the number of worker bees, the number of pupae, and the number of larvae in the Bonggun were measured every month, the results of measuring the number of worker bees in the Bonggun are shown in FIG. 7, and the number of pupae in the Bonggun is shown in FIG. Figure 9 shows the number of larvae in the bonggun.

As shown in Fig. 7, the number of worker bees of Baekdu bees was confirmed to be 3,819.5 in March to 3,992.1 in July on average, and the number of worker bees of general native bees averaged from 3,185.2 in March to 0 in July. It was confirmed that the Bonggun was abolished.

As shown in Fig. 8, the number of pupae of Baekdu bee was found to be from 1,006.4 in March to 523.7 in July on average, and the number of pupae of general native bees was on average from 1,201,2 in March to July. It was confirmed that the Bonggun was abolished with 0 animals.

As shown in Fig. 9, the number of larvae of Baekdu bee was found to be 1,523.7 in March on average to 623.2 in July, and the number of pupae of general native bees was on average from 1601.4 in March to 0 in July. It was confirmed that the Bonggun was abolished.

As a result, it was confirmed that the Baekdu bee maintained much more stable growth of bee fungi than the general native bees.

3.2.6 Checking the temperature and humidity of the bee group of Baekdu bee, a variety resistant to cystoid rot

The temperature and humidity in the Bonggun of Baekdubeol were measured at 9 o'clock, 12 o'clock, 15 o'clock, and 18 o'clock, respectively, to confirm the average temperature and humidity, and the results are shown in FIGS. 10 and 11.

As shown in FIG. 10, it was confirmed that the temperature in the Bonggun of Baekdubeol was maintained at 35.3 to 35.7°C, which is much more stable than the temperature in the Bonggun of the general native bee, 34.3 to 35.9°C.

As shown in FIG. 11, it was confirmed that the humidity in the bee of Baekdu bee maintained 50.5 to 57.3%, compared to 43.7 to 65.8%, which is the humidity of the general native bee.

3.2.7 Checking the watertightness of Baekdubeol

An experiment was conducted to confirm the honey productivity of Baekdu bee. Baekdu bee was set as the experimental group, and general native bees were set as the control group. As a result of measuring the honey productivity of Baekdu bees and general native bees by measuring the weight of 100 worker bees going out to collect honey for comparison of watertightness, and measuring the weight of 100 worker bees entering the beehive after collecting honey, the result of measuring the honey productivity of Baekdu bees and general native bees 1 It was confirmed that horses collected an average of 13.8 mg of honey, and the average native worker bees collected an average of 13.5 mg of honey. It was confirmed that the watertightness per worker bee was similar between Baekdu bee and general native bee.

Example 4. Breeding of Hallabeol, a variety resistant to cystic rot disease

The four breeds selected in Example 3.1 were combined and crossed to breed various breeds of breeding, and reared by the method of breeding in the larva of Example 1, and the resistance of cystic rods of each breeding breed was confirmed. The cultivar Hallabeol with excellent resistance to rot rot was bred. Figure 12 shows the breeding diagram of Hallabeol.

Example 5. Confirmation of the difference in honey productivity between Baekdu bee and Halla bee

An experiment was conducted to compare the honey productivity of Baekdu bee and Halla bee. Baekdu bee was set as the experimental group, and general native bees were set as the control group. For the watertightness comparison, the weight of 200 worker bees outgoing to collect honey was measured, and the weight of 200 worker bees entering the beehive after collecting honey was measured to measure the honey productivity of the baekdu bee and the halla bee. Shown in.

As shown in Fig. 13, it was confirmed that one baekdu bee collects an average of 28.5 mg of honey and the halla bee collects an average of 23.7 mg of honey, and the watertightness per individual worker bee of the baekdu bee is about 20.2 compared to the halla bee. % It was confirmed that it was excellent.

As described above, specific parts of the present invention have been described in detail, and for those of ordinary skill in the art, it is obvious that these specific techniques are only preferred embodiments, and the scope of the present invention is not limited thereby. something to do. Therefore, it will be said that the practical scope of the present invention is defined by the appended claims and their equivalents.

Claims (11)

(a) feeding the food containing the sacbrood virus to the native bee ( Apis cerana ) larvae;
(b) collecting surviving rebels;
(c) artificial insemination of the bee group in step (b) as paternal and maternal lines, and inbreeding over 7 to 13 generations to fix the resistance trait against cystic carcinoma;
(d) selecting a breed having a trait excellent in proliferative ability among the bee groups in which the trait is fixed in step (c) as a first progeny, and selecting a breed having a trait excellent in resistance to cystic rot disease as a second progeny; And
(e) breeding a bee having resistance to cystoid rot disease comprising; (e) crossing the first original species as the paternal line and the second original species as the maternal line.
The method of claim 1, wherein the inbreeding in step (c) is inbred over 10 generations.
The method for breeding bees resistant to cystic rot disease of claim 1, characterized in that the honey bee having resistance to cystic rot rot of claim 1 has the following morphological characteristics:
(1) The body length is medium.
(2) The belly length is medium.
(3) The double width is medium.
(4) The length of the hair is medium.
(5) The head width is large
(6) Abdominal segment length is medium.
(7) The length of the tongue is small.
(8) The mouth is small
(9) Each segment of the leg is small.
(10) The width of each leg is small
(11) The length of the wings is medium.
(12) The width of the wings is medium.
(13) The number of hooks on the wing is 16.3.
(14) The queen bee and the bee are completely black, and the worker bees are black and yellow.
The method of claim 1, wherein the step (a) is a step of feeding the bee larvae with food containing the cystoid rot virus of 2 x 10 ⁵ to 2 x 10 ⁷ PFU/day per larva. Methods of breeding bees that are resistant to
The cystoid rot resistant bees bred by the breeding method of bees having resistance to the cystic rot of any one of claims 1 to 4.
[6] The bee of claim 5, wherein the cystic rod rot resistant bees maintain the temperature in the rod at 35.3 to 35.7°C.
[6] The bee of claim 5, wherein the cystic rod rot resistant bees maintain the humidity in the rod at 50.5 to 57.3%.
Baekdu bee, which is a honey bee resistant to cystoid rot and has the following morphological characteristics:
(1) The body length is medium.
(2) The belly length is medium.
(3) The double width is medium.
(4) The length of the hair is medium.
(5) The head width is large
(6) Abdominal segment length is medium.
(7) The length of the tongue is small.
(8) The mouth is small
(9) Each segment of the leg is small.
(10) The width of each leg is small
(11) The length of the wings is medium.
(12) The width of the wings is medium.
(13) The number of hooks on the wing is 16.3.
(14) The queen bee and the bee are completely black, and the worker bees are black and yellow.
The baekdu bee of claim 8, wherein the baekdu bee maintains the temperature in the Bonggun at 35.3 to 35.7°C.
The baekdu bee according to claim 8, wherein the baekdu bee maintains a humidity of 50.5 to 57.3% in the bonggun.
Baekdu bee, characterized in that breeding by the method of claim 1.

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