RU2603271C1 - Bioinsecticide for controlling large bee moth - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular, to bee keeping, and can be used for controlling large bee moth. Bioinsecticide for large bee moth contains a Bacillus thuringiensis ARRIAM RCAM 00045 strain and filler, for example, NaCl, in a given ratio of components.

EFFECT: invention enables to recover bee families of large bee moth and preventive treatment of injuries of bee families of large bee moth larvae during entire honey harvesting season improves safety of bee families.

1 cl, 2 ex

Description

The invention relates to agriculture, in particular to beekeeping, and can be used to combat large wax moths.

Known prophylactic drug B401 ("Ceptan") against a wax moth (Galleria mellonella), including the microorganism Bacillus thuringiensis, Aizawai serotype. The concentrated solution of the drug is diluted with water to 5% solution before use. Using a spray, the drug is evenly applied, covering the entire surface of the frame. B401 ("Ceptan") is used as a preventive measure before the attack of pests, after honey collection, when the frames are placed in storage. Before storage, the treated frames are dried in a ventilated area. The drug kills the wax moth larvae and provides effective protection for the frames during the entire storage period, before installing them in the hive in the new season.

(The drug B401 ("Ceptan") against wax moth based on Bacillus thuringiensis. - Access mode: http://www.vita-europe.com/ru/).

However, the drug is not used in the presence of signs of honeycomb damage with wax moth (in the presence of moth larvae, characteristic brood lesions, etc.), in addition, imported drugs are quite expensive.

The known "Method for producing an insecticidal preparation and a preparation based on the bacteria Bacillus thuringiensis", comprising cultivating the bacteria Bacillus thuringiensis, isolating delta-endotoxin from the biomass by introducing a solvent, removing the precipitate and mixing the solution with filler and adhesive with further drying of the target product, characterized in that before separation of delta-endotoxin from biomass, an active precipitate fraction is isolated from it, which is dissolved in an aqueous solution of a reducing agent in alkali, while being used as a reducing agent use sulfite or sodium sulfide in a concentration of 0.04-0.17%, and hydrolyzed chitin, or molasses, or dry buttermilk, or whey, or ground glue, or pectin from beet or apple pulp, are used as an adhesive.

2. An insecticidal preparation based on bacteria Bacillus thuringiensis, containing dissolved delta-endotoxin as an active ingredient, in the composition of target additives a solvent, an adhesive stabilizer, a filler, characterized in that it is obtained according to the method according to claim 1 and has the following composition, wt. %: active principle - dissolved Bacillus thuringiensis delta-endotoxin - 10-20%, alkali - NaOH or KOH - 3-8%, reducing agent - sulfite or sodium sulfide - 1-8%, adhesive-stabilizer of the working suspension - molasses, or dry buttermilk or whey or hydrolyzed chitin, or ground glue, or pectin from beet or apple pulp - 3-20%, filler - up to 100%.

(Patent 2264103 A method for producing an insecticidal preparation and a preparation based on bacteria Bacillus thuringiensis / Kamenek LK - Application No. 2003109418/13. - Application. 04.04.2003; Publish. 20.11.2005).

However, the drug is not used to combat large wax moth.

The technical problem solved by the proposed invention is to expand the range of means of combating wax moth, increase the biological activity and effectiveness of the drug, which has high entomopathogenic activity against large wax moth larvae.

The technical result is achieved in that a bio-insecticide for controlling a large wax moth containing Bacillus thuringiensis bacteria and an excipient is characterized in that it contains Bacillus thuringiensis VNIISM RCAM 00045 strain in the following ratio of components, wt.%:

Bacillus thuringiensis strain VNIISCHM RCAM 00045 - 70-75

filler, for example NaCl - up to 100.

The technical result consists in the fact that the proposed preparation has new properties: heal the bee colonies from a large wax moth, destroying its larvae and freeing the apiary from the moth if there are signs of damage; allows you to prevent damage to bee families by larvae of a large wax moth during the entire honey collection season; in production conditions increases the safety of bee colonies. The drug is environmentally friendly, does not interfere with the activity of bees.

The invention is implemented as follows.

Example 1

The bacteria of the Bacillus thuringiensis VNIISM RCAM 00045 strain were cultured to produce a bioinsecticide for controlling large wax moth.

(Pat. 2453595 Russian Federation, IPC C12N 1/20, A01N 63/00, C12R 1/07. The bacterial strain Bacillus thuringiensis for bioinsecticide for combating large wax moth / N.E. Gorkovenko, Yu.A. Makarov, V .A. Serebryakova; applicant and patentee of the Far Eastern Zone Scientific and Research Veterinarian Institute - No. 20111110498/10; application. March 18, 2011; publ. 06.2012, Bull. No. 17. - 4 pp.).

The bacterial strain Bacillus thuringiensis was isolated from a natural source and deposited in the Departmental collection of beneficial microorganisms for agricultural purposes of the Russian Agricultural Academy of the All-Russian Scientific Research Institute of Agricultural Sciences (St. Petersburg) under registration number RCAM 00045 (author number 846-Bt in the DalZNIVI collection). The bacterial strain Bacillus thuringiensis VNIISCHM RCAM 00045 ensures the death of 100% of the larvae of wax moths of 4-6 ages in the laboratory.

Cultivation was carried out on MPA under aerobic conditions at a temperature of 28-30 ° C for 8-10 days. In the process of cultivation, smears of the culture were prepared, stained with an aqueous solution of carbolic fuchsin, and the ability of the culture to form protein crystals was determined by light microscopy. Selected cultures were washed with sterile distilled water. Before drying, the active principle was concentrated by centrifugation and removal of the supernatant. A filler was introduced to create the structure. As the filler used, for example, NaCl. Further drying of the target product was carried out under vacuum.

The insecticidal preparation obtained by the proposed method is a homogeneous powder of light gray color and has the following composition: the active principle is the spore-crystalline complex Bacillus thuringiensis VNIISHM RCAM 00045 - 70-75% and a filler, for example NaCl - up to 100%.

Example 2

We tested the proposed bioinsecticide for the prevention in apiary conditions. Processing was carried out after the end of the honey collection. For processing, we selected honeycomb frames intended for storage, and fodder honey-pergovy frames without signs of wax moth damage. The drug was previously diluted with boiled and chilled water to obtain a uniform suspension. Then the density of the suspension was adjusted to a concentration of 2.5 · 10 ⁸ spores / ml. The resulting aqueous suspension was treated with a honeycomb. For uniform application of the drug used household pneumatic sprayer. An aqueous suspension of the drug was applied on both sides of the frame. Consumption per frame was 15-20 ml. Total processed 250 frames. After drying, the frames were stored in spare hives and store extensions. At the end of wintering and during the entire honey collection season, no signs of damage to the wax moth larvae were found on the treated frames. Thus, the use of the drug before the penetration of the pest prevents the development and spread of wax moth in the apiary.

Example 3

We tested the proposed bioinsecticide with the aim of destroying the wax moth larvae in the apiary. Cell and brood frames with signs of wax moth damage were treated. Preliminarily, the degree of damage to the framework with wax moth was estimated from 3 to 10%. For the treatment used an aqueous suspension of the drug with a concentration of 2.5 · 10 ⁸ spores / ml The treatment was carried out by aerosol spraying a solution using a household pneumatic sprayer. When processing the affected framework, the drug caused the death of wax moth larvae on the 5-7th day. When examining the hives 2 weeks after processing, live larvae were not found. During periodic examinations throughout the honey collection season, no signs of damage to the hive frames by wax moth larvae were found. Therefore, a single treatment of the frames with an aqueous suspension of a preparation based on the Bacillus thuringiensis VNIISM RCAM 00045 strain killed the wax moth larvae and subsequently prevented the bee families from being again affected by the wax moth during the entire honey collection season.

Thus, the proposed drug has new properties: heal the bee colonies from a large wax moth, destroying its larvae and freeing the apiary from the moth if there are signs of damage; allows you to prevent further damage to bee families by larvae of a large wax moth during the entire honey collection season; in production conditions increases the safety of bee colonies. The drug is environmentally friendly, does not interfere with the activity of bees. The range of wax moth control agents is expanding.

Claims (1)

A large wax moth bioinsecticide containing Bacillus thuringiensis bacteria and an excipient, characterized in that it contains Bacillus thuringiensis VNIISM RCAM 00045 strain as bacteria in the following ratio, wt.%:
Bacillus thuringiensis strain VNIISCHM RCAM 00045 70-75 filler e.g. NaCl up to 100