RU2735251C1 - Method for breeding diamondback moth plutella xylostella l - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the agriculture. Method for breeding diamondback moth Plutella xylostella L. involves growing rape seedlings on an inorganic substrate, installation of containers with sprouts for eggs laying in sets from diamondback moth imago placed on shelves with artificial lighting, transfer of containers with eggs laid on rape seedlings to shelves with artificial lighting, larval moth growing to the required age, wherein 16-hour light day is established for growing rape seedlings and insect breeding.

EFFECT: invention makes it possible to increase the number of individuals of working and master cultures of diamondback moth (Plutella xylostella L) at its mass breeding.

7 cl, 1 tbl, 2 ex

Description

The invention relates to agriculture, in particular to technical entomology and protection of plants from pests, and can be used for mass cultivation of cabbage moth (Plutella xylostella L.), used in testing biological and other plant protection products and breeding entomophages.

Cabbage moth Plutella xylostella L. = Plutella maculipennis Curt. (Lepidoptera: Plutellidae) is a cosmopolitan and has now acquired the status of a particularly harmful pest due to changes in behavioral responses, food specialization and the lack of effective control measures. Periodic mass reproduction, as well as the resistance of the cabbage moth to most of the currently used chemical insecticides, necessitates the development of new, primarily biological, means of combating it. To study the effectiveness of biological agents designed to control the number of pests and their mass breeding, it is necessary to have a working and brood culture of this pest and to maintain a year-round breeding of cabbage moth in biological laboratories or biofactories.

There are known methods for breeding cabbage moth [1, 2], in which pupae are placed in plexiglass cages, after the adults emerge, they are fed with a 10% honey-water solution and placed in the cage with a substrate for laying eggs (powder of dry cabbage leaves, fresh cabbage leaves and others), when the larvae appear, they are grown on artificial nutrient media of various modifications. Such media are semi-synthetic, containing, including natural food, fresh or dried. The composition of artificial nutrient media proposed for feeding moth larvae includes bean seed powder, a mixture of Wesson's salts, sucrose, casein, linoleic, ascorbic and propionic acids, dry yeast, dry cabbage leaves, agar, formaldehyde and other substances.

The disadvantages of breeding the pest on artificial nutrient media include a large set of ingredients included in their composition, including expensive components, which increases the economic costs of the technological process at the stage of growing cabbage moth larvae. The use of components of plant origin (dried cabbage leaves and wheat seedlings) leads to an increase in the labor intensity of operations for drying plant material, and, as a result, to an increase in labor costs for the preparation of nutrient media and the cost of obtaining biomaterial in general.

A known method of breeding cabbage moth on rape seedlings, developed by Yamada N. and Koshihara T. [3, 4]. The method includes soaking the seeds in water for 5-6 hours, treating the seeds with a disinfectant, obtaining rape seedlings sown in closed plastic vessels with a ventilation hole in the center on a layer of a mineral substrate (Rubellan R), releasing imago moths on plants for laying eggs, growing larvae on rapeseed cotyledon leaves and collection of pupae on filter paper [3]. All stages of the technological process are carried out in natural light. The disadvantages of this method are high humidity in closed vessels, leading to the development of phytopathogenic and saprophytic microflora, including fungi p. Penecillium and Alternaria, as well as growing plants and breeding cabbage moths under natural day-length conditions. An inconsistent light period has a negative effect on both plant growth and insect development, and as a result, it affects the number of pests received.

The modified method of Liu M.Y. and Sun C.N. [5], which was taken as a prototype, includes the germination of rapeseed (without disinfection) in containers on vermiculite, the placement of containers with 3-4-day old rape seedlings 3 cm long in plastic cages of 20 × 20 × 30 cm, covered with nylon a net on the upper side, with the imago of the cabbage moth in them for laying eggs, growing the larvae in containers with rape seedlings, placed in larger cages - 30 × 30 × 50 cm, with a screen on all sides, collecting the larvae of the last instar using tweezers or brushes and placing them in containers with the addition of a few pieces of cabbage for pupation, daily collection of pupae by hand and keeping them in plastic cages until the adults leave. Dilution of cabbage moth is carried out at a temperature of + 25 ° C, fluorescent lamps are used to maintain a 12-hour daylight hours.

The disadvantages of this method are, firstly, the lack of disinfection of seed material, which inevitably leads to the development of phytopathogenic and saprophytic fungi, and as a consequence, the death of forage plants. Secondly, the use of plastic cages with a nylon mesh on the upper side does not provide sufficient air circulation, which further leads to premature decay of rape seedlings, death of larvae and a reduction in the life span of adults. Thirdly, with a high number of larvae, they completely destroy the rape seedlings in the container, as a result of which, for additional nutrition and the completion of the development of the larvae, it becomes necessary to add additional containers with fresh rape seedlings. Fourth, processing and disinfection of plastic cages after use is difficult and time consuming. In addition, when using fluorescent lamps to illuminate plants and breed cabbage moths, a lot of excess heat is released, overheating and rapid evaporation of moisture from the substrate is observed, which causes the need for frequent watering, and as a result, increases the labor intensity of the technological process.

The present invention is aimed at obtaining a large number of individuals of working and brood cultures of the cabbage moth (Plutella xylostella L.) during its mass breeding due to the creation of optimal conditions for keeping insects, in particular, temperature and light conditions, aeration regimes for keeping adults and larvae, using available feed plants for growing pest larvae and reducing labor costs.

The technical problem is solved by disinfecting seeds with a 6% solution of hydrogen peroxide, using mineral wool as a substrate for obtaining rape seedlings, cages, which are frames made of plastic corners, covered with a cover made of transparent fabric, for keeping adults, LED lamps for plant lighting and insects, the establishment of 16-hour daylight hours, two species of plants for feeding the larvae of the brood culture, reducing labor costs as a result of reducing the number of watering rape seedlings and manual labor to collect 4th instar larvae due to their independent crawling onto cabbage leaves placed on rape seedlings with larvae feeding on them.

The method of breeding cabbage moth involves the following operations: sow rape seeds disinfected with a 6% hydrogen peroxide solution for growing seedlings on a moistened inorganic substrate - mineral wool, place containers with three-day-old rape seedlings in cages consisting of a plastic frame covered with a cover made of transparent fabric, with the imago of the cabbage moth in them, placed on shelves with LED lamps and 16-hour daylight hours. The adults are fed with a 9% honey solution. Containers with rape seedlings and pest eggs laid on them are placed on separate open racks for growing larvae, watering the seedlings is carried out if necessary. In the process of breeding insects manually, either the selection of eggs and larvae of the 2nd-3rd instars of the working culture is carried out for experiments, or the collection of the larvae of the 4th-instar moth by laying out on rape seedlings with larvae of cabbage leaves on them for additional nutrition and independent crawling to them larvae. Cabbage leaves with pupae are collected and placed in containers covered with perforated lids to obtain the next generation of brood culture adults.

The created optimal conditions allow all year round to have an affordable forage base for incubating eggs and breeding pest larvae. Disinfection of rape seeds makes it possible to almost completely exclude the development of extraneous microflora and the death of forage plants throughout the entire period of development of moth larvae. The advantage of using hydrogen peroxide as a disinfectant is that it is safe for insects and maintenance personnel. In addition, such positive properties of mineral wool as biological resistance to decomposition and decay, a high coefficient of water absorption, good air permeability make it possible to create optimal conditions for the growth and development of the root system of rape seedlings and reduce water consumption by reducing the number of irrigations. Improvement of conditions for the development of rape seedlings and pest breeding is also achieved by lighting with LED lamps, which eliminate such undesirable phenomena as overheating of the substrate and rape seedlings, and also reduces energy consumption. The advantages of LED lamps also include their long service life, structural strength, reliability and environmental friendliness. The use of cages consisting of a plastic frame enclosed in a transparent fabric cover for keeping adults of the cabbage moth during the egg-laying period contributes to good aeration and the creation of an optimal microclimate. Cages made of plastic corners are easy to use, frames and covers are easy to clean and disinfect. Based on the number of insects required for work, containers and cages of various sizes are used. The use of cabbage leaves for independent crawling and additional feeding of the 4th instar larvae greatly facilitates the collection of insects by reducing manual labor and makes it possible to obtain insects of the cabbage moth brood culture with a large body weight. An additional advantage of the proposed method for breeding cabbage moth is the ability to significantly reduce production waste by reusing the spent substrate - mineral wool - with the remaining plant residues for breeding other insect species, for example, soil mosquitoes (family Sciaridae) and the predatory beetle Atheta coriaria.

In the claimed method, the breeding of one generation of the brood culture of the cabbage moth occurs within 21-24 days, including the embryonic period - 2-3 days, larval - 12-14, pupal development - 6-7 days. The lifespan of adults kept under the proposed conditions is more than 20 days.

The essence and advantages of the invention can be illustrated by the following examples of the invention.

Example 1. Obtaining a working culture of cabbage moth

Sow rape seeds, disinfected with hydrogen peroxide at 6% concentration for 15 minutes, on a layer (1-2 cm) of moistened mineral wool, placed in plastic containers, at the rate of 5 g of seeds per 50 cm so that the entire surface of the substrate was covered with seeds. Containers with seeds are closed with perforated lids and placed on racks for germination at a temperature of + 25 ± 1 ° C. Containers with three-day-old rape seedlings are placed in cages, which are frames made of plastic corners measuring 20 × 20 × 20 cm, covered with a cover made of transparent fabric (mill gas, organza), which contain imago of the cabbage moth. The adults in containers are fed with 9% honey syrup applied to cotton swabs. Every day, containers with rape seedlings and pest eggs laid on them are removed from the cage and placed on open shelves equipped with LED lamps, and instead of them new containers with fresh canola seedlings are installed. The embryonic and larval periods of development of the cabbage moth take place on shelves with LED lamps at a temperature of + 25 ± 1 ° C and a 16-hour daylight hours. During the development of the cabbage moth, the required number of individuals is harvested by hand and used as a working culture (at the stage of eggs and larvae - for breeding entomophages, at the stage of larvae of 2-3rd instar - for testing plant protection products).

Example 2. Obtaining the mother culture of the cabbage moth The mother culture of the pest is kept separately and used for reproduction of the population. To do this, sow rape seeds, disinfected with hydrogen peroxide in 6% concentration for 15 minutes, on a layer (1-2 cm) of mineral wool completely soaked in water, placed in plastic containers, at the rate of 5 g of seeds per 50 cm ² in this way so that the entire surface of the substrate is covered with seeds. Seed containers are closed with perforated lids and placed on racks for germination at a temperature of + 25 ± 1 ° C. Open containers with three-day old rape seedlings are placed in cages, which are frames made of plastic corners measuring 20 × 20 × 20 cm, covered with a cover made of transparent fabric (mill gas, organza), which contain imago of cabbage moth. The adults in containers are fed with 9% honey syrup applied to cotton swabs. Every day, containers with rape seedlings and pest eggs laid on them are removed from the cage, watered and placed on open racks equipped with LED lamps, and instead of them new containers with fresh canola seedlings are installed. The embryonic and larval periods of development of the cabbage moth take place on shelves with LED lamps at a temperature of + 25 ± 1 ° C and a 16-hour daylight hours. The larvae are kept on rape seedlings until the 4th instar, then cabbage leaves are placed on the rape seedlings, onto which the caterpillars crawl independently, feed additionally and pupate later. Cabbage leaves with pupae are placed in separate containers closed with perforated lids, where they are kept until the adults emerge. The emerged adults are released into new cages to obtain the next generation of the pest.

The table shows the comparative characteristics of the method of breeding cabbage moth, depending on the temperature and type of food substrate (average for 3 experiments) according to the invention as amended and according to the prototype. According to the proposed method, the duration of development of one generation of the phytophage is reduced by 4-7 days compared to the prototype and is 21-24 days, which makes it possible to obtain up to 14 generations of cabbage moth brood culture in a calendar year. The use of cabbage leaves for additional feeding of larvae allows an increase in the body weight of adults, and as a result, increases their fertility, and also significantly increases the number of emerged butterflies of a new generation compared to the option where only one type of plant is used for feeding the larvae - cabbage leaves, and with a prototype, where the larvae are fed only with rape seedlings. Considering the long life span and egg laying of the imago of the cabbage moth (up to 20 days), when breeding a pest in a laboratory for scientific research and breeding entomophages, there are simultaneously individuals of different developmental phases all year round.

The inventive method allows for year-round breeding of cabbage moth as a test object for research on testing plant protection products and breeding entomophages. The invention does not require the use of expensive equipment, is environmentally friendly and can be used for mass production of the pest Plutella xylostella L. in biolaboratory or biofactories.

Sources of information

l. Htwe Ah Nge, Takasu R., Takagi M. Laboratory rearing of the diamondback moth Plutella xylostella (L.) (Lepidoptera: Plutellidae) with artificial diet // Journal - Faculty of Agriculture Kyushu University. 2009. No. 54 (1), P. 147-151.

2. Hou R.F. Mass rearing of diamondback moth. 1986 pp. 89-95. In N. S. Talekar and T. D. Grigges [Eds], Diamondback moth management. Proceeding of l st international workshop, Asian vegetable research and development center, Shunhua. Taiwan.

3. Yamada H., Koshihara T. A simple mass rearing method for the diamondback moth. (In Japanese) // Plant. Prot. 1978. N32. P. 253-256.

4. Koshihara T., Yamada H. A simple mass-rearing, technique of the diamondback moth, Plutella xylostella (L.), on germinating rape seeds. (In Japanese with English summary) // Jpn. J. Appl. Entomol. Zool. 1976. No. 20. P. 110-114.

5. Liu M.Y., Sun C.N. Rearing diamondback moth (Lepidoptera: Yponomeutidae) on rape seedlings by a modification of the Koshihara and Yamada method // J. Econ. Entomol. 1984. No. 75. P. 153-155.

Claims (7)

1. A method of breeding cabbage moth Plutella xylostella L., providing for growing rape seedlings on an inorganic substrate, placing containers with seedlings for laying eggs in cages with imago cabbage moths placed on racks with artificial lighting, moving containers with eggs laid on rape seedlings, on racks with artificial lighting, growing moth larvae to the required age, characterized in that 16-hour daylight hours are set for growing rape seedlings and breeding insects. 2. The method of breeding the cabbage moth Plutella xylostella L. according to claim 1, characterized in that LED lamps are used for artificial illumination of rape seedlings and insects. 3. A method of breeding the cabbage moth Plutella xylostella L. according to claim 1, characterized in that for keeping adults, cages are used, consisting of a frame made of plastic corners, covered with a cover made of transparent fabric. 4. The method of breeding the cabbage moth Plutella xylostella L. according to claim 1, characterized in that mineral wool is used as a substrate for growing rape seedlings. 5. The method of breeding the cabbage moth Plutella xylostella L. according to claim 1, characterized in that the disinfection of rape seeds is carried out within 15 minutes with hydrogen peroxide of 6% concentration. 6. The method of breeding the cabbage moth Plutella xylostella L. according to claim 1, characterized in that cabbage leaves are used for additional feeding of the 4th instar larvae and for collecting pupae of the mother culture. 7. The method of breeding the cabbage moth Plutella xylostella L. according to claim 1, characterized in that the spent substrate - mineral wool with the remaining plant residues - is reused for breeding other insect species.