KR101461510B1 - Artificial breeding of yellow spotless Ladybugs - Google Patents

Abstract

The present invention provides an optimized artificial breeding environment based on the ecological characteristics of native benthic wild yellow ladybirds and provides food that enables superior development in stages, resulting in an artificial breeding of yellow ladybug having superior viability and spawning power And a method for artificial breeding of a yellow ladybug.
In particular, the present invention provides a method for preventing and treating diseases caused by powdery mildew, which comprises feeding plant seedlings with powdery mildew, Feeding the hatching larva to obtain a homeless larva; Obtaining a pupa by solubilizing the homeless larva; Alienating the pupa to obtain an adult; And a method for artificially raising a yellow ladybug through a step of inducing natural mating and spawning of the adult, the method comprising the steps of: preventing external migration of adult and hatching larvae; ventilating well; The present invention is characterized in that any one plant seedlings or any one of the same plant seedlings already infected with powdery mildew pathogens is provided which is easy to generate mildew pathogenic bacteria such as cucumber and cedar.

Description

{Artificial breeding of yellow spotless Ladybugs}

The present invention relates to a method for artificial rearing of a yellow ladybug, and more specifically, to provide an artificial rearing environment optimized based on the ecological characteristics of native benthic wild yellow ladybug, The present invention relates to a method of artificial rearing of a yellow ladybug, which can realize artificial rearing of a yellow ladybug having excellent survival ability and spawning power as a result.

Recently, the diversity of vegetable cultivation methods has changed the pattern of pests.

In particular, since the country has a narrow land area and cultivates the same crop every year in the same area, and in a certain region, a large complex is formed by collective cultivation of one or two crops, so that the occurrence and damage of pests are increasing.

The pest damage is a limiting factor in crop production and farm income, with approximately 30-50% of income paid for pest control.

Since 1950, pesticides have been managed by effective and inexpensive organic synthetic pesticides. However, due to threats to human life and environment, pest resistance to pesticides, and high cost for new pesticide development, long-term and stable new pest management The introduction of Integrated Pest Management (IPM) became inevitable.

This combines the use of biological, cultivated, physical, and chemical control technologies to create an ecological pest control method that minimizes risks to economic, environmental and human factors.

So far, IPM has been carried out in advanced agricultural countries such as USA and Europe to reduce the environmental and food risks caused by pesticide use, to increase the income of farmers, to increase the sustainability of natural resources, and to pioneer new export market.

In this global trend, Korea is promoting the environment-friendly agricultural production through the improvement of laws and regulations at the government level, but it is still a rudimentary stage.

Powdery mildew, also known as whitepox (Powdery mildew), is one of the most common diseases among crops, trees and weeds.

When the disease is caught, the fungal hyphae are entangled, and the plant is grayish white, showing symptoms like flour spraying, and the diseased part is twisted into an unsightly shape, causing the leaves or stalks to wilt, and the quality of the fruit is lowered .

It occurs frequently in areas where the temperature difference between night and day is severe or where the air is not well ventilated. It spreads through the air in the form of conidia and becomes the infectious agent in the next year by wintering or falling in the form of hyphae.

The domestic registered medicines for the control of powdery mildew diseases are ganbendae. Nualidol (liquid), Leppol (water), Penbuconazole (Water) [Inda], Penonazole (Water) Nuclear succinic acid (liquid), Fenari (water), and Mankoji (water). Two or three kinds of medicines are alternately sprayed at intervals of 5 days and are controlled until the disease disappears.

However, the control using such a drug not only causes a very serious problem to the environment due to the residual drug, but also has a high risk for human being.

Therefore, in recent years, a new agricultural technology has been developed in order to utilize natural insects living on these pathogens for environmentally friendly control.

A typical example is a yellow ladybug that eats microorganisms.

In general, ladybugs are largely classified according to their feeding habits, such as leprosy-like insects, such as aphids, such as lepidoptera, and lepidoptera, such as large-spotted ladybugs, And can be divided into eating bacteria (eating bacteria).

The yellow ladybug, which is an indigenous insect living mainly in pathogens, has attracted many researchers because of its ecological value.

However, it is difficult to breed artificially indoors while acknowledging the possibility of biological control of plant diseases by using yellow ladybug, and it has not been effective in mass rearing due to the problem of homologous predation which can be eaten by the same species .

The object of the present invention is to provide an artificial breeding environment which is optimized based on the ecological characteristics of the native bacterium nematode yellow ladybug, To provide artificial rearing of a yellow ladybug which is capable of realizing artificial rearing of a yellow ladybug having superior survival ability and spawning power as a result.

In order to achieve the above object,
(1) providing a seedling of a plant that has developed powdery mildew as a food, and raising the eggs from the adults to obtain hatching larvae; Feeding the hatching larva to obtain a homeless larva; Obtaining a pupa by solubilizing the homeless larva; Alienating the pupa to obtain an adult; And a method for artificially raising a yellow ladybug through a step of inducing natural mating and spawning of the adult,
The breeding image is intended to prevent any extermination of adults and hatching larvae, to form well-ventilated wells, and to any one healthy plant seedlings or mildew disease pathogens already susceptible to the occurrence of pathogenic fungi such as cucumber and cedar Characterized in that a plant seedling is provided.
(2) In the step (1), in the step of obtaining eggs from the adult to obtain the hatching larvae, the temperature of the breeding space in the terrestrial stage is maintained at 23 to 27 ° C, Day condition that is made up of the memorization of the memory.
(3) In the above (1), the plant infected with the powdery mildew pathogenic bacterium of the above-mentioned (1) is a plant in which a part of the plant infected with powdery mildew pathogenic bacteria is stuck, but it is stored in a room kept at 5 캜 after washing in distilled water, And is a plant seedlings of any one of healthy cucumber or ginkgo which is sprayed.
(4) In the above (3), the plant seedlings of any one of the cucumber or gypsy plants infected with the pathogenic fungi of the powdery mildew pathogens are selected from the group consisting of Levulula, Sphaerotheca, Phillactinia and Microsphaera which are parasitic only in living organisms. Is included.
(5) The method according to the above (4), wherein the powdery seedlings of any one of the cucumber or gypsy plants infected with the pathogenic fungi of the powdery mildew do not contain any pathogenic microorganisms belonging to any one of Levillula, Sphaerotheca, Phillactinia and Microsphaera genus Phytophthora spp, parasitic Fusarisum spp, and Phytophthora spp., Which can survive for 7 to 10 days, should be included.
(6) In the above step (1), in the step of obtaining the pupa by solubilizing the domesticated larva, the pupa and the scattered eggs are separately collected within 24 to 48 hours, and then they are raised on each independent land.
(7) In the above step (1), in the step of inducing natural mating and spawning of an adult, the adults are grown from the pupae and then inoculated alternately with the grown adults in the different breeding stocks and the egg- It is characterized in that it removes only a lot of plants attached to it, moves it to a land without adult, or stores a part of a plant with a lot of scattered nodules in a well-ventilated container maintaining a humidity of 80-90%.

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The present invention was conducted to investigate the ecological characteristics of an indigenous bacterium and yellow ladybug, to provide an optimized artificial breeding environment and to provide a natural food that enables excellent development in stages, resulting in a yellow mushroom having superior viability and spawning power It is possible to realize artificial rearing of insects.

In particular, it is possible to supply the yellow ladybug, which is a well-known natural predator of the powdery mildew disease, to the buyer of the farm after the mass rearing, and thus it is possible to smoothly carry out the pest control work through the natural insect.

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

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the user, the intention or custom of the operator, and the like.

Therefore, the definition should be based on the contents throughout this specification.

As shown in the figure, the method of artificial rearing of yellow ladybird according to the present invention includes
Providing the plant seedlings with mildew disease as food, raising the eggs from adult to obtain hatching larvae; Feeding the hatching larva to obtain a homeless larva; Obtaining a pupa by solubilizing the homeless larva; Alienating the pupa to obtain an adult; And inducing natural mating and scattering of the adult.
Herein, the above-mentioned breeding image is intended to prevent the excretion of adults and hatching larvae, to form well-ventilated, and to contain any one healthy plant seedlings, such as cucumbers and ginkgo nuts, One plant seedling is provided.
In the step of obtaining the hatching larvae from eggs by the adult, the temperature of the breeding space in the four spots was maintained at 23 to 27 DEG C, and the long-day condition of 16 hours of the longish period and 8 hours of the dark period was maintained do.
The plant infected with the powdery mildew pathogenic bacterium mentioned above is one in which a part of the plant infected with powdery mildew pathogenic bacteria is stuck, but it is stored in a room where it is kept at 5 캜 after washing in distilled water, and a healthy cucumber or gyeonggi station We make one plant seedling.
In addition, the plant seedlings of any one of the cucumber or gypsy plants infected with the powdery mildew pathogens include the pathogenic microorganisms belonging to any one of Levillula, Sphaerotheca, Phillactinia and Microsphaera which are parasitic only in living organisms.
When the powdery mildew of any one of the above-mentioned Levillula, Sphaerotheca, Phillactinia, and Microsphaera is not contained in any one of the cucumbers or cucumber plants infected with the pathogenic fungi of the powdery mildew, Phytophthora spp, parasitic Fusarisum spp, and soybean parasitic Phytophthora spp, which are able to sustain the spatula film, should be included.
In the step of obtaining the pupa by solubilizing the domesticated larva, the pupa and the eggs which have been scattered are separately collected within 24 to 48 hours, and are kept on each independent land.
In the step of inducing natural mating and spawning of adults, adult birds from the pupae are inoculated alternately in the different breeding stocks, and only the plants with a lot of scattered egg nuggets are taken out, Move to land or store some of the spawning larvae in a well-ventilated container with a humidity of 80-90%.

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The following tests were conducted to obtain each step necessary for artificial rearing of the yellow ladybug as described above.

Test 1.

<Survey on ecological characteristics of bacteriostatic yellow ladybug>

end. Morphological characteristics of yellow ladybug

(1) Survey on the size of the larvae of the yellow ladybug larvae

Size (mm ± SD) 1st generation Second generation Third generation Fourth Head capsule width 0.23 ± 0.0052 0.42 + 0.028 0.54 + 0.012 0.72 + 0.017 Body length 1.38 + - 0.439 2.89 ± 0.537 3.96 + 0.498 5.31 ± 0.568

[Egg] [larvae (third order)] [pupa] [adults]

(2) Comparison of mouthwashes of Ladybird and aphid predatory species

○ Mandible: 400 ×

     [Yellow ladybug adult] [Little bird ladybug adult]

       [Yellow ladybug larva] [Little bird ladybird larva]

○ Small jaw (maxilla): 400 ×

       [Yellow ladybug adult] [Little bird ladybug adult]

I. Yellow ladybug occurrence ecology

[Yellow ladybug feeding on powdery mildew (pumpkin, weighted tree)]

(1) Degree of occurrence of mildew disease and yellow ladybug in Korea (2010 ~ 1011)

Powdery mildew Plant species The incidence of powdery mildew Degree of ladybug occurrence Remarks Leveillula Capsicum annuum L. (pepper) + ± Mars Sphaerotheca Lactuca I have indica . laciniata for.
indivisa Hara
Cucumis sativus L. (cucumber)
Cucurbita moschata Duch (pumpkin)

Coreopsis lanceolata L. (large gold circle) +

++
+

++ ± Mars

± Mars

± Mars, copper

± Mars
Phyllactinia Pyrus There is ussuriensis . macrostipes
(Nakai) T. Lee (pear tree)
Diospyros kaki Thunb (persimmon)

Ailanthus altissima Swingle ++

+

+ ++

+

+ Mars

Hwaseong, Cheongju
Yangpyeong Microsphaera Juglans sinensis Dode (walnut tree) + + Yangpyeong 4 Nine species

±: rare; +: common; ++: abundant.

(2) Generation of yellow ladybug (2010 ~ 2011)

I. Developmental Characteristics of Yellow Ladybug by Temperature

Temperature
(° C)
Development period (days) and survival rate (Mean SD) 1st generation Second generation Third generation Fourth Larval period
(1 to 4 years old) Survival rate
(%) 15 4.3 ± 1.6 6.1 ± 2.1 6.2 ± 3.3 8.3 ± 1.3 24.9 ± 8.3 13.3 20 2.7 ± 0.9 2.6 ± 1.2 4.1 ± 1.7 6.1 ± 1.4 15.5 ± 5.2 53.3 25 1.2 ± 0.4 2.3 ± 0.7 2.3 ± 1.3 4.6 ± 1.4 10.4 ± 3.8 70.0 28 2.0 ± 0.0 1.3 ± 0.5 1.8 ± 0.4 2.8 ± 1.4 7.9 ± 2.3 43.3 30 1.3 ± 0.5 2.0 ± 0.4 1.7 ± 0.7 2.6 ± 1.2 7.7 ± 2.1 33.3

Light condition 16L: 8D, open appendix;

All. Selection of yellow ladybug countermeasures

                        [Alternative food selection]

○ Preference for feeding yellow ladybug by type of short-term substitute food

No
Strain name Host plant
feeding spawning life span
larva eelworm U radish One Phytophthora spp. Spartan Film + ++ ○ 7 days 2 Fusarisum spp. Perilla ++ + ○ 8 days 3 Phytophthora spp. bean ++ + ○ 10 days

Test 2.

<Effect of controlling yellow powdery mildew of yellow ladybug>

A. Yellow-bearded livers per day

(Mm ² / day ± SD) (%) 1st generation Second generation Third generation Fourth imago 45.6 ± 20.1
(10) 144.4 ± 97.8
(79) 372.2 + - 226.9
(79) 628.1 + - 340.0
(133) 473.7 ± 257.9
(100)

25 ℃, 16L: 8D, 1 per repetition, 30 eggs per recipient.

B. Effect of yellow ladybug on cucumber powdery mildew

(1) Yellow ladybug proper seeding density setting: When lesion area ratio is less than 2.5%

[Control effect according to the number of elapsed days by vaccination density]

Number of inoculation: 4 times (early onset, 7, 12, 18 days after first inoculation)

(2) Control effect of cucumber powdery mildew disease control according to control method: When lesion area ratio is less than 2.5%

[Changes in the incidence of cucumber powdery mildew due to the number of days after treatment]

         Number of treatments: 4 times (early onset, 7, 12, 18 days after first inoculation)

[Effect of control of cucumber powdery mildew disease on the elapsed days after treatment]

       Number of treatment: 4 times (early onset, 7, 12, 18 days after first inoculation)

(2) Effect of mixed treatment on control of cucumber powdery mildew

○ Mixed treatment: Yellow ladybug + microbial pesticide (Cupert)

[Occurrence rate of cucumber powdery mildew and control effect according to the elapsed days after treatment]

            Number of treatments: 4 times (Yellow ladybug 3, Cupid 1)

Test 3.

<Selection of safe farming materials for yellow ladybug>

A. Sensitivity to organic synthetic insecticides of yellow ladybird larvae (3 rd) and adults

NO.
Insecticides (A.I.)
Form.
Mortality (%) (± SD) Larvae Adult One Dinotefuran (10%) WP 66.7 ± 11.5 33.3 ± 17.6 2 Spinetoram (5%) SC 50.0 ± 30.0 26.7 ± 5.8 3 Spiromesifen (20c) SC 13.3 ± 5.8 16.7 ± 11.5 4 Acetamiprid (8%) WP 100 93.3 ± 11.5 5 Emamectin benzoate (2.15%) EC 93.3 ± 5.8 73.3 ± 27.5 6 Clothianidin (8%) SC 100 70.0 ± 36.1 7 Thiamethoxam (10%) WG 80.0 ± 17.3 8.3 ± 2.9 8 Pyridaben (20%) WP 76.7 ± 5.8 100 9 Pyriproxyfen (10%) EC 16.7 ± 11.5 11.7 ± 2.9 10 Acetamiprid + Etofenprox (2.5 + 8%) WP 100 100 11 Acetamiprid + Indoxacarb (4 + 5%) WP 100 100 12 Deltamethrin (1%) EC 100 91.7 ± 7.6 13 Gamma-cyhalothrin (1.4%) CS 100 90.0 + - 10.0 14 Novaluron (10%) SC 50.0 ± 30.0 8.3 ± 2.9 15 Bistrifluron (10%) EC 63.3 ± 15.3 0 16 Bifenthrin + Imidacloprid (2 + 8%) WP 100 100 17 Control 10.0 + - 9.6 3.3 ± 5.0

I. Sensitivity to insecticidal organic materials of yellow ladybug larvae (3rd instar) and adults

NO.
Organic Materials
(Commercialname) Compound (AI.)
Mortality (%) (± SD) Larvae Adult One Toggagi power Plant Extract 60.0 ± 8.2 66.7 ± 17.3 2 Jinsami Plant Extract 83.3 ± 5.8 56.7 ± 17.3 3 Nobug Plant Extract 100 23.3 ± 14.1 4 Eungsami Plant Extract + Microorganism 100 100 5 Onsami Plant Extract 76.7 ± 5.0 76.7 ± 14.1 6 Barojin alpha Plant Extract + Microorganism 16.7 ± 5.0 6.7 ± 10.0 7 Dyna Plant Extract 76.7 + - 10.0 70.0 ± 23.8 8 Barogaru alpha Plant Extract + Bacillus subtilis 6.7 ± 5.8 23.3 ± 18.9 9 Barotok alpha Plant Extract + Bacillus subtilis 86.7 ± 5.0 33.3 ± 18.9 10 Eungaetan alpha Plant Extract + Bacillus
subtilis 100 46.7 ± 5.0 11 Suncho Plant Extract 100 100 12 Jinap Plant Extract 66.7 ± 5.0 50.0 ± 22.2 13 Bijin alpha Plant Extract 100 0 14 Daeyou eungjinssak Natural Seed Extract 83.3 ± 12.6 93.3 + - 10.0 15 Solbitchae Microorganism 10.0 ± 8.2 6.7 ± 5.0 16 Daeyou my plazman Neem Extract 56.7 ± 5.8 66.7 ± 23.6 17 Neem seed oil Neem Extract 70.0 ± 8.2 13.3 ± 5.8 18 Ddook plus Plant Extract + Microorganism 73.3 ± 14.1 36.7 ± 5.8 19 Bt one Bacillus thuringiensis 16.7 ± 5.0 0 20 Daeyou ecocide Bacillus t. serovar 13.3 ± 5.0 6.7 ± 5.8 21 Top seed Bacillus Psenibacillus polymyxa AC-1 0 0 22 Q pact Ampelomyces quisquuslis 94013 0 0 23 Control 10.0 + - 9.6 3.3 ± 5.0

25 ℃, 16L: 8D, 10 repeats per repeating 3 times.

The ecological characteristics of the yellow ladybird, an indigenous natural bacterium ladybug, obtained by performing the above test procedure, and the results of the test for the control effect of the disease were summarized as follows.

end. Nine species of powdery mildew were investigated as a host plant of mildew fungus feeding on yellow ladybug. The highest rate of occurrence of yellow ladybug was pear powdery mildew.

I. Gyeonggi area (Hwaseong city) Yellow ladybug adults were observed from the beginning of July to the beginning of November.

All. Two of the 32 fungal strains were good for feeding and spawning activity as a substitute for yellow ladybug.

la. In case of less than 2.5% of cucumber powdery mildew, the third larvae of yellow ladybirds were injected four times at 5-day intervals with 3 animals per week, and the control effect was higher than 80% after 7 days of application and the control effect tended to decrease with time It looked.

hemp. In the case of less than 2.5% of cucumber powdery mildew, when mixed with the third instar larva and microbial pesticide of yellow ladybug, the control effect was over 95% after 13 days of treatment.

bar. We selected spiromesifen and pyriproxyfen as organically synthesized pesticides, and sulphate, saponaceous, top seed, and cupectic as organic materials in insects and adults of yellow ladybirds.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Claims (11)

delete delete Feeding plant seedlings with mildew disease was fed,
Raising the eggs from adults to obtain hatch larvae;
Feeding the hatching larva to obtain a homeless larva;
Obtaining a pupa by solubilizing the homeless larva;
Alienating the pupa to obtain an adult; And
A method for artificially raising a yellow ladybug through a step of inducing natural mating and spawning of the adult,
It is characterized in that the above-mentioned breeding image is provided with one of the same plant seedlings which have been already infected with any one plant seedling or powdery mildew pathogen among the cucumber and ginkgo seedlings in order to prevent excretion of adult and hatching larvae, Artificial breeding method of yellow ladybug. 4. The method according to claim 3, wherein in the step of obtaining the hatching larvae from eggs from the adult, the breeding space temperature in the terrestrial environment is maintained at 23 to 27 DEG C, Wherein the long-day condition is maintained. 4. The method according to claim 3, wherein the seedlings of any one of cucumber or gypsy plants infected with the pathogenic fungi of the pathogenic fungi are pastes infected with powdery mildew pathogens, washed in distilled water, stored in a room maintained at 5 DEG C, The method of artificial rearing of a yellow ladybug according to claim 1, [Claim 5] The method according to claim 5, wherein the plant seedlings of any one of cucumber or ginko infected with the pathogenic fungi of pathogenic fungi include a pathogenic microorganism belonging to any one of Levillula, Sphaerotheca, Phillactinia and Microsphaera which are parasitic only in living organisms Artificial breeding method of yellow ladybug which is characterized. [7] The method according to claim 6, wherein when the powdery seedlings of any one of the cucumber or gold stalks infected with the powdery mildew pathogen does not contain any of the pathogenic microorganisms belonging to Levillula, Sphaerotheca, Phillactinia or Microsphaera, Phytophthora spp., Parasitic Fusarisum spp., And Phytophthora spp., A parasitic species of Phytophthora spp., Which can survive for about 10 days, are included in the artificial feeding method of yellow ladybug. delete delete [Claim 4] The method according to claim 3, wherein, in the step of obtaining the pupa by solubilizing the domesticated larva, the pupa and the scattered eggs are separately collected within 24 to 48 hours and are raised on each independent land, . 4. The method according to claim 3, wherein, in the step of inducing natural mating and spawning of the adult, the adult is grown from the pupa, and alternately inoculated with adult adults grown in different different breeds, and only the plant with a lot of egg- Removing a part of the plant having a large amount of scattered nodules by moving it in a well-ventilated container maintaining a humidity of 80 to 90%, and moving and storing the yellow ladybug.