RU2660934C1 - Method of bee bacterial diseases control in conditions of moderate continental climate - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to beekeeping, and can be used for the processing of hives with bee colonies. Method for the prevention of bacterial diseases of bees in conditions of temperate continental climate includes feeding in beehives with bees an ozone-air mixture in a gaseous state for 30 minutes. Ozone-air mixture with an ozone concentration of 70–100 mg/m³, which is fed after the bees have been wintering to the lower part of the hive by ascending streams in the air at an ambient temperature of at least 20 °C.

EFFECT: invention provides an increase in the effectiveness of treatment of bacterial diseases of bees.

1 cl, 3 ex, 3 tbl

Description

The invention relates to agriculture, in particular to beekeeping, and can be used for processing hives with bee families.

The most common types of bee diseases in apiaries are bacterial diseases or bacterioses caused by pathogenic bacteria, such as colibacteriosis, hafniosis, septicemia, American foulbrood (Oskin S.V., Ovsyannikov D.A. “Electrotechnological methods and equipment to increase labor productivity in honey beekeeping of the North Caucasus ”: monograph. / S.V. Oskin, D.A. Ovsyannikov - Krasnodar: Publishing House LLC“ Kron ”, 2015. - 198 p.).

From scientific and technical literature, experiments are known to study the effect of aeroionization on the condition and wintering of bee colonies. They noted a decrease in microbial contamination of the air in the winter house by 30%. Inspection of families after exhibiting them from the winter house showed the absence of signs of bacterial diseases in the condition of artificial ionization (Manapov AG “Aeroionization - the microclimate of the winter house - wintering quality” / Manapov AG, Dementyev EP // Beekeeping. - 1994. - No. 4. - S. 8-10).

Russian researchers have determined that at low concentrations, ozone has a positive effect on the factors of development and productivity of bee colonies: it reduces the concentration of pathogens; reduces the humidity of the indoor air; slightly increases the temperature; improves the gas composition of the intra-oleic air (Nikolayenko Sergey Anatolyevich “Study of the quality of regulation of ozone concentration in the hive using the system of stabilized electrozoning of bee families” // Scientific journal of KubSAU. Scientific Journal of KubSAU. 2014. No. 103).

A known method of disinfecting livestock buildings from Escherichia coli (see patent RU 2546015), comprising treating livestock buildings with an ozone-air mixture, the ozone-air mixture being used with an ozone concentration of 12-25 mg / m ³ in indoor air, the treatment carried out for 60-120 minutes until the complete destruction of E. coli.

The disadvantage of this method: the impossibility of implementing the method in the hives for bees, the relatively high duration of disinfection.

A method of disinfecting livestock buildings from staphylococci (see patent RU 2554743), comprising treating livestock buildings with an ozone-air mixture, the ozone-air mixture being used with an ozone concentration of 6-12 mg / m ³ in the room air, the treatment being carried out in within 60-120 minutes until the complete destruction of staphylococci.

The disadvantage of this method: the impossibility of implementing the method in the hives for bees, the relatively high duration of disinfection.

The closest in technical solution is the method of processing bees (see patent for the invention RU 2234837), including feeding the ozone-air mixture in a gaseous state to beehives with bees with an ozone concentration of 16 to 64 mg / m ³ for 5-720 min s periodicity up to 2 times a day.

The disadvantage of the prototype: the inability to use for the prevention of bacteriosis of bees, the inability to use in a temperate continental climate.

The technical result is the possibility of application for the prevention of bee bacteriosis, the possibility of application in a temperate continental climate.

The technical result is achieved by the fact that in the method for the prevention of bacteriosis of bees in a temperate continental climate, comprising supplying a beehive with an ozone-air mixture in a gaseous state for 30 minutes, according to the invention, an ozone-air mixture with an ozone concentration of 70-100 mg is used / m ³ , whereby the ozone-air mixture is fed after wintering of the bees to the lower part of the hive with ascending flows in air at an ambient temperature of at least 20 ° C.

The most preferable moment for processing bees in order to prevent bacteriosis is the spring period immediately after the bees winter, namely the time when the ambient temperature is not lower than 20 ° С. The above circumstances are characterized, on the one hand, by the reduced immunity of bees, on the other hand, by poor survival of bacterioses in the hive, since there is an increased survival of bacterioses at 7-20 ° C (Diseases and pests of honey bees: Reference book / O.F. Grobov, AM Smirnov, E.T. Popov. - M.: Agropromizdat, 1987 .-- 335 s: ill., P. 48).

Justification of the eligibility criteria of the invention

Laboratory studies of the processing of beehives with bees according to the claimed invention were carried out in the field of the Krasnodar Territory. The universality of the method lies in the fact that bacteriosis of Escherichia coli and Staphylococcus aureus, which are conditionally at the ends of the scale of the degree of survival, was processed, which means that the effectiveness of the method is guaranteed for all types of bacterioses encountered. Hence, the method is characterized by "inventive step".

The novelty is due to the fact that the proposed set of essential features is not known from the state of the art, namely the use of an ozone-air mixture with an ozone concentration of 70-100 mg / m ³ , the supply of the ozone-air mixture after wintering of bees at an ambient temperature of at least 20 ° C.

Industrial applicability is confirmed by the possibility of application in the beekeeping farms of agriculture.

A method for the prevention of bee bacteriosis in a temperate continental climate is illustrated by the following examples.

The method for determining microbial contamination is based on the sedimentation method for studying precipitated microorganisms on open surfaces of culture media, physiological saline, or sterile glasses.

Sterile Petri dishes with cultures of test bacteria were placed in a special chamber where the ozone-air mixture was supplied from a laboratory-type ozone generator of the barrier type. Nutrient agar produced by NPO Nutrient Medium (Makhachkala) was used as a cultivation medium.

Example 1. In each cup was added 0.1 ml of a microbial suspension of E. coli containing 1000 microbial cells, which was distributed over the entire surface of the agar. After that, the crops were ozonized. At the same time, ozone concentrations of 100, 70, 50, 25, 12, and 6 mg / m ³ were tested at exposures of 7, 15, 30, 60, and 120 minutes. At the end of ozonation, the culture plates were placed in a thermostat at a temperature of 37 ° C for 24 hours. The experimental results were evaluated by the number of colonies grown. Each study was performed in triplicate. Crops not subjected to ozonation were used as control. Table 1 is obtained for the dependence of the survival parameter of E. coli on ozone concentration and treatment time.

Example 2. In each cup was added 0.1 ml of a microbial suspension of Staphylococcus aureus containing 1000 microbial cells, which was distributed over the entire surface of the agar. After that, the crops were ozonized. At the same time, ozone concentrations of 100, 70, 50, 25, 12, and 6 mg / m ³ were tested at exposures of 7, 15, 30, 60, and 120 minutes. At the end of ozonation, the culture plates were placed in a thermostat at a temperature of 37 ° C for 24 hours. The experimental results were evaluated by the number of colonies grown. Each study was performed in triplicate. Crops not subjected to ozonation were used as control. Table 2 is obtained as a function of the survival parameter of Staphylococcus aureus on ozone concentration and treatment time.

Example 3. Field tests of the claimed method were carried out in a temperate continental climate, namely in the Krasnodar Territory. Real active hives in the apiary were treated, the bees had the opportunity to be directly in the hive during processing. The effect of the method was evaluated using the value of the degree of development of bee colonies, since directly assessing the survival of Escherichia coli inside the hive in the online mode was not possible and would be a disruption to the life of the bees. Field test results are presented in table 3.

The state of development of bee colonies was evaluated on the basis of an indicator of the degree of development of bee colonies, which is determined by the formula

where P ₂ - the number of bees in the final count, pcs; P ₂ - the number of bees in a printed brood, pcs; P ₁ - the number of bees at the first count, pcs; P ₁ - the number of bees in a printed brood at the first count, pcs;

Claims (1)

A method for the prevention of bee bacteriosis in a temperate continental climate, comprising supplying a gaseous state of an ozone-air mixture to beehives with bees for 30 minutes, characterized in that an ozone-air mixture with an ozone concentration of 70-100 mg / m ^{3 is used} , wherein after the wintering of the bees, the ozone-air mixture is supplied to the lower part of the hive by ascending currents in air at an ambient temperature of at least 20 ° C.