RU2511304C2 - Method of increasing adaptive status of bee family - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to livestock husbandry, in particular, to beekeeping for increasing the adaptive status of the bee family. The microdoses of biologically active substance are administered in the body of bees with water or an aqueous solution of carbohydrates. Dihydroquercetin is used as the biologically active substance.

EFFECT: reduction of lead and cadmium in the body of bees is provided, and fertility of queen bees is increased.

1 tbl, 1 ex

Description

The invention relates to animal husbandry, in particular to beekeeping.

Known use in livestock biologically active substances. They, not being feed substitutes, can intensify their use by stimulating the digestive processes, affecting carbohydrate, protein, lipid and mineral metabolism. By activating physiological processes, biologically active substances can indirectly affect the restoration of disturbed processes, enhance the body's functions, thereby increasing its resistance to damaging effects, the development of pathological processes. Unlike medical preparations that regulate physiological processes, biologically active substances intensify them (Bukin, 1976; Evdokimov, 1974).

In beekeeping, to increase the adaptive status of bee colonies, it is known to use melacryl, polysin (a mixture of essential amino acids) and chitosan succinate (a derivative of chitin with succinic acid), which are added to carbohydrate foods in micro doses. Top dressing with the addition of biologically active substances is carried out during the period of bees growing for honey collection at 5-7-day intervals. Polisin, ceteris paribus, more than melacryl and chitosan, stimulates the reproductive function of the uterus (Yeskov, Yaroshevich, 2006, 2007). This expresses the relatively high positive effect of polysin on the adaptive status of bee colonies.

However, the known methods, affecting the reproductive activity of the uterus, contribute to an increase in the accumulation rate of lead and cadmium in the feed and water in the body (Yeskov, 2006, 2008; Yeskov, Yaroshevich, 2006). With the accumulation of lead and cadmium in the bees, a decrease in their viability is associated (Yeskov et al. 2007). This poses a special threat to beekeeping in the face of a steadily increasing technogenic pollution of the environment in recent years. In particular, with the progressive increase in vehicles, pollution of fodder areas used by bees, lead, and cadmium sharply increases.

The purpose of the present invention was to develop a method for increasing the adaptive status of bee colonies by introducing into the body of working individuals an environmentally friendly preparation of dihydroquercetin (C ₁₅ H ₁₂ O ₇ · 1,5H ₂ O). As indicators that contribute to increasing the vitality of bee colonies, there is a decrease in the body of bees of dangerous toxicants such as lead and cadmium, as well as an increase in the fecundity of queen bees. Fertility of the uterus is associated with the replenishment of the death of bees, which occurs with particularly high intensity in the spring-summer period.

Dihydroquercetin is a bioflavonoid with a wide spectrum of biological action: it regulates metabolic processes, has a positive effect on the functional state of the body, creates mechanisms to protect healthy body cells from pathologies caused by chemical poisoning by neutralizing radical activity. Dihydroquercetin is non-toxic, harmless, has high activity at low concentrations, and is resistant to thermal and mechanical influences. In 1997, the European Parliament and the Council adopted instructions on the use of taxifolin (dihydroquercetin), obtained from Daurian larch in the creation of new food products and additives with a deadline of 9 August 2010.

The technological result of the invention is achieved by the fact that the proposed method of stimulating the reproductive activity of queen bees, including the introduction into the body of working bees with water or an aqueous (25-30%) carbohydrate solution of microdoses of dihydroquercin. To do this, use extra-waterers or intereuil feeders. Bees need water and a low-concentrated carbohydrate feed in the spring and early summer - at a time when bees weakened by wintering are replaced. At this time, the bees actively consume water and the low concentrated carbohydrate solutions provided to them, which contributes to the introduction of the drug into them. The uterus receives the drug indirectly from working bees in the course of one of the obligate forms of interaction - trophollaxis (Yeskov, 1992). The dose of the drug, stimulating the reproductive function of the uterus, is 5-10 mg per day per 1 kg of live weight of working bees. An increase in the dose of dihydroquercetin is not a threat to bees, as the drug is environmentally friendly.

The implementation of the method with low labor and time is achieved by the use of apiary (extra-zero) drinking bowls. Drinking bowls are placed in the apiary in early spring, which allows the bees to develop a conditioned reflex to the location of the drinkers. Dissolution of salt (NaCl) in the drinkers contributes to an increase in the attractiveness of the drinkers, and the bees experience a particularly high demand at the beginning of the spring-summer season in the annual life cycle. The concentration of the drug in water is calculated by the daily amount of water consumption by all bee families and the mass of bees contained in them.

The use of large amounts of labor and time to provide the bees with a drug in a carbohydrate solution from in-house feeders is associated. But this allows you to more accurately calculate the daily dose of the drug.

Example. Two groups of bee colonies (experimental and control) with uterine sisters were formed. In each group there were 10 bee families. Initially and during the spring-summer season, fertility of the uterus by the number of sealed brood was taken into account according to the generally accepted methodology. The bees of the experimental group were fed 25% solution of sucrose containing dihydroquercetin in intra-oar feeders. The average daily intake of dihydroquercetin was 7 mg per 1 kg of live weight of bee colonies. The control group of bee colonies received a 25% sucrose solution without drug. The indicated feeding of the bee was received from 10.05 to 01.06.10,

Along with the foregoing, the content of lead and cadmium was monitored in the body of working bees by the atomic adsorption method before the start of the experiment and after completion of feeding.

As a result, it was found that the initial uterine fertility in the experimental and control groups did not differ and was at the level of 1012-1234 eggs per day. After 2-3 weeks from the beginning of the experiments, the uterus, receiving dihydroquercetin in a carbohydrate solution, laid an average of 1453 ± 49 eggs per day, in the control group - 1213 ± 42 eggs. Thus, uterine fertility under the influence of dihydroquercetin consumption increased on average by 16% (P> ≥0.95).

Table The content of lead and cadmium in the body of bees of the experimental and control groups Analyzing
being
the structure Content initially after 20 days lead, mg / kg cadmium, mcg / kg the control experience lead, mg / kg cadmium, mcg / kg lead, mg / kg cadmium, mcg / kg Head 0.36 ± 0.07 31 ± 0.9 0.37 ± 0.09 38 ± 0.8 0.26 ± 0.06 27 ± 0.6 Chest 0.52 ± 0.09 39 ± 1,1 0.59 ± 0.12 44 ± 1.3 0.38 ± 0.07 31 ± 0.5 Abdomen (without intestines) 0.21 ± 0.03 16 ± 0.6 0.27 ± 0.08 36 ± 0.7 0.17 ± 0.03 13 ± 0.4 Rectum 1.23 ± 0.13 56 ± 1.8 1.46 ± 0.15 68 ± 0.9 0.94 ± 0.08 45 ± 0.7

In the control group in different parts of the body and in rectums, the content of lead and cadmium during the spring period tended to slightly increase (ranging from 3 to 22%). In contrast, in the bees of the experimental group, the content of these pollutants decreased. In the head department, the decrease in lead content relative to the initial level averaged 28%, in the chest - 27%, in the abdominal - by 19% and in rectums - 24%, and cadmium, respectively, by 17%, 21%, 19% and 20 %

The stimulation of uterine reproductive activity, obviously, is largely due to the fact that the drug intensifies the removal of pollutants from bees. In the trophic chain, the queen bee significantly reduces the content of lead and cadmium in the uterine milk, which is produced by the hypopharyngeal glands of working bees and is used to feed ovulating uterus. This reduces the toxic effect of lead and cadmium on the physiological state of the uterus.

According to reports, the most effective biostimulator used in beekeeping, polysin (a mixture of amino acids), unlike dihydroquercetin, promotes the accumulation of lead in bee rectums (Yeskov et al., 2007). Obviously, for this reason, it is significantly inferior to dihydroquercetin in terms of the effect on the reproductive activity of uterus (Yeskov, Yaroshevich, 2007).

Information sources

Bukin V.K. Biochemical fundamentals of the use of vitamins in animal husbandry: Vitamins - their production and use in agriculture. Krasnodar. 1976. - S.16-30.

Evdokimov P.D., Artemyev V.I. Vitamins, trace elements, biostimulants and antibiotics in animal husbandry and veterinary medicine. L .: Lenizdat. 1974.74 p.

Yeskov E.K. Ecology of honey bee. Ryazan: Russian word. 1995.392 s.

Yeskov E.K. Technogenic pollution of the environment and bees // Beekeeping. 2006. No. 7. S.10-13.

Yeskov E.K., Yaroshevich G.S. Polysin, chitosan and melacryl - stimulators of the development of bees // Beekeeping. 2006. No5. S.16-17.

Yeskov E.K., Yaroshevich G.S. Reproductive activity in queen bees of different fecundity during chitosan stimulation // Agricultural Biology. 2007. No2. S.115-118.

Yeskov E.K. et al. Accumulation of heavy metals in the body of bees // Beekeeping. 2008. No2. S.14-16.

Yeskov E.K., Yaroshevich G.S. Reproductive activity in queen bees of different fecundity during chitosan stimulation // Agricultural Biology. Animal biology. 2007. No2. S.115-118.

Claims (1)

A method of increasing the adaptive status of a bee family, including the introduction of microdoses of biologically active substances into the body of bees with water or an aqueous solution of carbohydrates, characterized in that dihydroquercetin is used as a biologically active substance, which helps reduce lead and cadmium in the body of bees and increase the fecundity of uterus.