RU2151501C1 - Method for reducing brood mityness extent - Google Patents

Abstract

FIELD: apiculture. SUBSTANCE: method involves using biologically active substance, such as ecdysteron, for inhibiting the development of parasitic Varroa jacobsoni mite; introducing inhibitory substance in the form of aqueous solution into cell with larva prior to sealing it. Method is ecologically safe. Treatment of larvae with ecdysteron reduces brood mityness extent. EFFECT: increased efficiency in bee disease control and simplified method. 3 tbl, 3 ex

Description

 The invention relates to the agricultural industry, namely the use of biologically active substances in beekeeping.

 One of the most dangerous diseases of larvae, pupae and adult bees is varroatosis caused by ticks, ectoparasites Varroa Jacobsoni (Varroa Jacobsoni Oud.). Currently, the damage caused by this disease is one of the urgent problems of beekeeping. Varroatosis is classified by the International Epidemiological Bureau on the “B” list of quarantine diseases of bees, along with American foulbrood and acaranidosis (Grobov, O.F. Ticks: parasites of bees and pests of their products. M: Rosagropromizdat, 1991, 93 pp.).

 Currently (Wienands A. Synopsis der weltweit gogen die Warroamilbe der Honigbiene Eingesetzen Pruparate // Allg. Dtsch.imkerztg. Zd., 1988., 9, p. 313-315) more than a hundred natural and industrially manufactured preparations are used to treat varroatosis . However, they are either ineffective or extremely laborious. In addition, not a single chemical preparation ensures the complete death of ticks, and the presence of surviving individuals contributes to the emergence of resistance to this drug, and involves the use of stronger acaricides, which are not always neutral with respect to bees (D.A. Griffis, V. Ritter. Damage inflicted by the tick of Varroa Jacobsoni to world beekeeping and measures against it // Apiakta. XXIV, N4, 1989, pp. 97-108).

 Given the biological characteristics of the tick and the impossibility of curing bees by known methods, in the mid-80s, searches began for new environmental methods to combat varroatosis. They are mainly aimed at identifying and fixing the genetic mechanisms of resistance of honey bees to varroatosis. It is proposed to obtain Apis mellifera bee lines that would have hygienic behavior as A.cerana bees - cleansing the body of the claw and destroying the affected brood (Taber S. Different mechanisms of resistance of bees to Varroa jacobsoni // Amier. Bee. J., 1995. , v. 135., 2., p. 123-124). Since the development and reproduction of the tick occurs at the pupal stage, another direction of bee breeding is to obtain bees with a shortened pupal stage (Delaplane KS Varroa mite tolerant honey bees // Amer. Bee J., 1995., v. 135., 2., p. 175-176).

 Recent Studies (Kraus B. Effect of colony odour upon attrctivenes of bees (Apis mellifera) of the same ages for Varroa jacobsoni // J. Apicult. Rez., 1995., v. 34., 1., p. 47-49 ) it has been demonstrated that adult bees and broods of different families have different attractiveness for ticks, i.e., targeted selection and breeding of bees that are not attractive to ticks is possible. The resistance of honey bees to varroatosis, associated with impaired tick reproduction in some brood species, has also been identified (Harbo JR, Hoopingarnes R. Resistance to Varroa expressed by honey bees in the USA // Amer. Bee J., 1995., v. 135. , 12., p. 827). As a result of the studies, it was noted that an excess or deficiency of juvenile hormone prevents the laying of eggs by female ticks. There was also an increased death of ticks in brood-infected bee colonies, whose diseased larvae have a high content of juvenile hormone (Grobov, O.F. .

 The objective of the invention is the use of the hormone of molting insects - ecdysterone as a means of suppressing the development of varroatosis in bee brood.

 Experiments to identify the effects of ecdysterone on the development of Varroa jacobsoni were carried out in the Ufa region of the Republic of Bashkortostan in 1997. In the experiments, chemically pure ecdysterone isolated from safflower-like Rhaponticum carthamoides (Willd) IIJin was used.

 In order to study the effect of ecdysterone on the development of the parasitic tick Varroa jacobsoni in three bee colonies, a brood of 8 days of age was worked out. An untreated brood of the same age in the same families was used as control. The number of ticks was counted at the opening of a 20-day bee brood. The experimental results are shown in table 1.

 The invention is illustrated by the following examples.

EXAMPLE 1. Dissolve 3 • 10 ^-2 mg of dry ecdysterone in 1 liter of distilled water. The resulting solution in the amount of 3 • 10 ^-3 ml contribute to each cell with a larva. The tick count was carried out before the bees left the cell at 20 days of age (table 1).

 Fattening of the treated brood as in was more than 2 times lower than the control. A visual comparison with the untreated brood revealed no deformities or deviations of the treated pupae. When weighing, there were also no significant differences between the average weight of control (106.0 + 1.72 mg) and experimental (108.5 + 0.94 mg) pupae.

 When analyzing the qualitative composition of ticks (table 2), it was found that in the offspring of female founders that multiplied on the control brood, the developed ticks that emerge from the cell with working bees and later breed more than in the offspring of female founders that developed on the processed ecdysterone brood.

In ecdysterone-treated brood, 5.4% of pupae (cells) were affected by ticks, and in the control, 14.9%. Moreover, in the treated brood for each affected pupa there was only one female founder (only one female found with 3 female ticks F _{1 was} found in only one, i.e., on average, 1.5 female mites F ₁ In the control brood in six cells, 2 female founders with a total number of 20 ticks offspring were recorded (on average, 1.67 ticks per one female founder), and 4 female founders with 3 ticks F _{1 were} found in one cell (in an average of 0.75 ticks per one founder). then during the penetration of several mite female fertility in one cell decreases, a record is kept of the female fertility, which were in some cell This revealed a small difference fecundity of female founders:. in the control brood per female founder had 2.5-mite F _1, and in the processed - 2.8.

EXAMPLES 2 AND 3
The experiments were carried out analogously to example 1, but the amount of dissolved ecdysterone was different: in example 2-3 mg per 1 liter, in example 3 - 3 • 10 ^-4 mg per 1 liter of distilled water. The experimental results are shown in table 3.

 Thus, a change in the hormonal status of bee brood with ecdysterone is a means of slowing the development of tick offspring. In addition, brood treated with ecdysterone loses its attractiveness to female ticks, which is also a factor in reducing the burrowing of bee colonies.

Claims (1)

A method for reducing the beekeeping of a bee brood with a Varroa jacobsoni tick by using an exogenous hormone, characterized in that the insect hormone molting hormone, ecdysterone, is introduced into the cell with an 8-day larva in the form of an aqueous solution with a concentration of 3 - 3 x 10 ^-4 mg / l amount of 3 x 10 ^-3 ml.

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