RU2222189C2 - Composition for protecting honey bees from parasite mites - Google Patents

Abstract

FIELD: agriculture, in particular, protection of honey bees and useful insects from parasite mites. SUBSTANCE: composition comprises formic acid and gelling component, which swells in formic acid and is transformed into gel. Method allows mites to be killed in sealed brood and provides prolonged evaporation of formic acid and, accordingly, prolonged action thereof upon parasites at any development stage. EFFECT: increased acaricidal effect and simplified method. 3 tbl

Description

The invention relates to agriculture and for the protection of honey bees and beneficial insects from parasitic ticks
The invention can most effectively be used to combat parasitic ticks: Varroa Jacobsoni, Acarapis Woody, etc.

 Currently, mainly chemical agents are used against ticks. In the development of any chemical agent, except the active substance, the form and method of its application play a special role. These tools should be practical in terms of workload and have low labor intensity as well as safety of use.

 Over the years, a large number of devices, preparations, and methods of their use have been developed for controlling parasitic ticks, pests of bee products and various diseases of bees (Grobov O.F. Ticks: parasites of bees and pests of their products. M., Rosagropromizdat, -1991. - 92 pp. Grobov O.F., Smirnov A.F., Popov E.T. Diseases and pests of honey bees.Handbook.M. on ticks of varroa. / Actual problems of veterinary pharmacology, chemotherapy and toxicology. Tay. Proceedings of VIEV. T68. -1990. -118-120 pp. Ivanov Yu. A. Study of the effect of fluvalinate on ticks of Varroa. Actual problems of veterinary pharmacology, chemotherapy and toxicology. Collection of articles. Proceedings of VIEV. T68. -1990. -120-123 p.). These drugs, both domestic and foreign, solve the problem of combating parasitic ticks and numerous diseases of bees.

 However, the expansion of the arsenal of such drugs that meet modern requirements for safety, complexity, low cost and effectiveness of their use, have not lost their relevance at present and their further improvement is beyond doubt.

 Formic acid preparations have been and are widely used in the former USSR and other countries of the world. The use of this acid ensures environmental cleanliness, as it decomposes into water and carbon dioxide. In addition, formic acid is always present in natural flower honeys in an amount up to 100 mg / kg, in chestnut up to 626 mg / kg, and some others up to 1000 mg / kg. Since formic acid is found in rather high concentrations in other foods: mustard, mayonnaise, ketchup, you should not worry about the quality of honey if this remedy is used to combat ticks. When used correctly, this is the best tick-borne drug that does not affect the quality of beekeeping products.

 From modern parasitic tick control agents, formic acid is used in three ways: in plastic bags, flat bottles and plastic household lids. 2-3 cardboard plates are put in packages and 30-50 ml of formic acid are poured. Before use, 1-3 holes with a diameter of 1.5 cm are made in the bags and the bags are placed on the honeycomb frames (TU 46-12-1055-85).

 When using bottles, 30-50 ml of formic acid are poured into them and twisted gauze wicks are inserted. The bottle is suspended from the top bar of an empty frame and placed on the side of the nest.

 A polyethylene cover is placed on the honeycomb, 30 ml of acid are poured and covered with cardboard. Evaporation of acid occurs through the gaps between the edges of the lid and cardboard (Grobov, O.F., Smirnov, A.F., Popov, E.T., Diseases and pests of honey bees. Handbook. M., Agropromizdat. -1987. - P. 135. Grobov O.F. Ticks: parasites of bees and pests of their products. M. - Rosagropromizdat. -1991. - 61p.). The disadvantage of these formulations based on formic acid and methods of its use is that in the conditions of their application, taking into account the fact that formic acid causes respiratory tract irritation and burns, special care must be taken. In addition, significant difficulty lies in regulating the evaporation of formic acid in the hive.

 It is also known the use of formic acid in a device for the evaporation of drugs in the hive (A.S. USSR 1430015, class A 01 K 51/00, 1988). This device has not received proper distribution in the use of formic acid in it due to the fact that it is not sufficiently developed from the point of view of safety due to the high toxicity to humans and bees due to the difficulty of accurately controlling the rate of acid evaporation into the hive. Evaporation of acid in this device takes place in a gap controlled by a screw pair, one of the elements of which is made in the center of the bottom inside the tank, and the other in the center of the lid. This gap is set manually and does not ensure the accuracy of the fixed gap and, accordingly, a given effective amount of acid evaporation. In addition, the use of the specified device in apiary conditions is difficult and rather time-consuming.

 The use of the drug formicide is also known. The active ingredient in this preparation is formic acid, which is used in vaporizer bags. Porous material (cotton wool, cardboard, etc.) is put into these evaporator bags, 30-50 ml of formic acid is poured and placed on honeycombs, after making 2-3 holes with a diameter of up to 1 cm on the underside (Treatment of bees. Fish: Scientific Research Institute of Beekeeping. - 1990. - 32p. Recommendations for the use of drugs for bee varrootosis. Minsk: BelNIIEP APK. 1991. -18 p.). In apiary conditions, the use of this drug is difficult due to the risk of burns on skin and mucous membranes, as well as the difficulty in regulating the evaporation of formic acid in the hive.

 Of the known compositions for protecting honeybees from diseases and pests, the closest in technical essence to the claimed invention is a gel-like composition with a slow release for combating infection of families of honeybees with ticks, fungi and bacteria, containing essential oil or formic acid, acetic acid or oxalic acid (A method of combating infection with parasites of bee colonies, RF application 99100378 A1, class A 01 K 51/00, 2000). In this invention, the gel is in the form of a small dispenser tray with a hermetically insulated coating. The method uses a gel in the form of strips of gel, gel granules, gel tablets or a dispenser tray filled with the above forms. It is well known that a gel is a thixotropic colloidal system, therefore, during storage, transportation and temperature fluctuation, it cannot retain the shape of granules, tablets and strips.

 The objective of the present invention is to provide a composition for protecting honey bees and beneficial insects from parasitic mites, providing physico-chemical stability during storage, transportation and temperature fluctuations, safe use in apiary conditions and prolonged evaporation of the active substance, as well as expanding the arsenal of technical means to combat parasitic ticks of bees.

 This problem is solved due to the fact that the active substance - formic acid - additionally contains a gel-forming component, a copolymer of polyacrylamide with potassium polyacrylate, which swells in the specified acid and passes into a gel-like state (gel).

 The problem is also solved by the quantitative ratio of the contents of the ingredients.

The proposed composition contains these components in the following content, wt.%:
Formic acid - 90-99
Gel-forming component copolymer of polyacrylamide with potassium polyacrylate - 1-10
Eliminating most of the disadvantages of using formic acid to protect honey bees from parasitic ticks and taking into account the advantages when used in terms of environmental safety and effectiveness, the proposed composition ensures the safety of its use in apiary conditions and prolonged evaporation of acid.

 In the process of preparing the composition, the gel-forming component of the copolymer of polyacrylamide with potassium polyacrylate is used in powder form or in the form of granules. Formic acid in the proposed composition was preferably used 85% concentration (in% by weight).

 The manufacture of the proposed structure is as follows. The gel-forming component of a copolymer of polyacrylamide with potassium polyacrylate is dosed in a predetermined percentage (% by weight) into an acid-permeable sheath of non-woven material. Formed shells of non-woven material with a gel-forming component are placed in consumer packaging, for example, in cans of polypropylene with test opening covers. Then, formic acid is remotely dosed into these cans in a volumetric manner in cabinets with exhaust ventilation and closed with covers for the control opening, excluding the contacts of the acid and its vapors with the workers. In the patent and scientific and technical literature, unknown technical solutions to the problem posed are similar to those claimed, namely the use of a gel-forming component of a copolymer of polyacrylamide with potassium polyacrylate to obtain formic acid gel, which allows us to conclude that the proposed composition meets the patentability condition - "novelty."

 The use of a gel-forming component in the composition and a combination of the claimed components in certain proportions allows to achieve the effect indicated in the objective of the invention, i.e. The claimed composition for protecting honeybees from parasitic ticks satisfies the condition of patentability - "inventive step".

 The use of the drug "Ant" in apiary conditions is as follows. Open the jar (control opening cover), remove the drug element from the jar with tweezers or a hand in a rubber glove and place it on the upper bars of the honeycombs under the canvas. After acid evaporation (after 7-8 days, depending on air temperature), the packets are removed and disposed of. This application of the proposed composition eliminates acid contact with workers and eliminates the possibility of skin burns and the effects of vapors on the mucous membranes of beekeepers. Thus, the proposed composition ensures the safety of its use in apiary conditions.

 The treatment dose of one bee colony was determined experimentally in the process of testing the composition and determining its effectiveness under application conditions - tests in apiary conditions. Each element contains 30 g of formic acid, which is placed (introduced) into the hive at the rate of 1 element per family with a strength of 5-8 streets. The treatment of bee families with varroatosis is carried out twice with an interval of 7-8 days, and with acarapidosis - three times with the same interval.

 The simplicity of the manufacturing technology of the proposed composition, the scarcity of the components used and the technical result under the conditions of use allows us to conclude that the composition meets the condition of patentability - "industrial applicability and feasibility".

 The ratios of the components in the proposed composition are justified experimentally.

 Information confirming the feasibility and effectiveness (technical result) of the invention, illustrate the testing of various compositional options.

 Testing the acaricidal activity of formulations 1-3 (Tables 1, 2, and 3) was carried out on apiaries unfavorable for varroatosis and acarapidosis during the active period of bee activity in accordance with the Methodological Recommendations for the Study of Preparations and Methods for Combating Bee Varroatosis. Approved by the Veterinary Department VASKHNIL 04/27/81

 The compositions were removed from the consumer packaging and placed on the upper bars of the frame under the canvas at the rate of 30 g of the composition per family of bees with a strength of 5-8 bee streets.

 To conduct experiments on complete families, experimental groups of 10 bee colonies were formed on the basis of the pair-analogs principle and a record was taken of strength, food supply and the degree of stickiness. Experimental groups of bee families were treated with the claimed composition of the table. 1.

 Two control groups were formed (n = 10). The first control group was treated with formic acid vapors using 20 x 30 cm plastic bags with 2-3 plates of cardboard impregnated with 30 ml of formic acid (control 1, Tables 2 and 3). The second control group of bee colonies was not treated with anything (control - 2, Tables 2 and 3).

 The criterion for evaluating the effectiveness of the drug was the difference between the intensity of stickiness of bees and brood before and after treatment, the nature of the egg production of the uterus and the dynamics of development of the bee family.

 The data obtained during the experiments are presented in table. 2 and 3.

 The data of experiments to test the effectiveness of the claimed composition in varroatosis of bees confirmed high acaricidal activity, which amounted to an average of 98.5% in the groups. When therapeutic efficacy of the prototype composition in the same time period, acaricidal efficacy was 75.0%. In the first control group (formic acid, the traditional method of application), on the first day of application, bees were choked out from the hives. In the experimental groups 1–3 (Table 2), there were no cases of death of the uterus, a decrease in their oviposition, ejection of a bee or drone brood, as well as the beekeeping of bees.

 As can be seen from the data given in table. 3, the effectiveness of the claimed composition in acarapidosis of bees averaged 98.5%. When therapeutic efficacy of the prototype composition, the efficiency was 68.6%. In the first control group (the composition of the prototype is a traditional method of application), on the first day of use, the bees were buoyed out of the hives. In the experimental groups, there were no cases of death of the uterus, a decrease in their oviposition, ejection of a bee or drone brood, as well as the pumping out of bees.

 The data obtained during the experiments indicate an increase in the efficiency of the claimed composition from 20 to 30% compared with analogues and prototype.

 The proposed composition compares favorably with other drugs and methods of their use for controlling parasitic ticks in apiary conditions by ease of use, low labor intensity, low cost and environmental safety. In addition, the use of the proposed composition allows one to achieve a high varroa cide effect and the effect of killing ticks in a sealed brood, to obtain prolonged evaporation of formic acid and its long-term effect on parasites of any stage of development.

 The use of the proposed composition in a shell of non-woven material eliminates the possibility of direct contact of bees with the composition. Honey obtained from bee colonies treated with the proposed composition is used without restrictions. The proposed composition is an effective drug for protecting honey bees from parasitic ticks, which does not affect the quality of beekeeping products.

 Processing bee families with the proposed composition is less time-consuming than processing with other known compounds and methods, therefore, the proposed composition is suitable for controlling parasitic ticks both in industrial apiaries, farms, and in personal subsidiary farms.

Claims (1)

Composition for protecting honeybees from parasitic mites, containing a gel-forming component and formic acid, characterized in that a copolymer of polyacrylamide with potassium polyacrylate is used as the gel-forming component in the following components, wt.%: Formic acid 90-99 Polyacrylamide copolymer with potassium polyacrylate 1-10

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