MD812Z - Process for feeding bees - Google Patents

Abstract

The invention relates to beekeeping, particularly to a process for feeding bees.The process, according to the invention, includes feeding of bees with a mixture of 50% sugar syrup and feed additive in an amount of 1.0 l of mixture per bee colony, in the evening, every 10…12 days, starting from the first days of April to the beginning of the main honey flow. At the same time, the feed additive contains at the most, in mass %: sodium/potassium humate 0.1, yeast extract/autolysate 10.0, lactic acid 5.0, beta-glucan 5.0, water the rest and is added to the sugar syrup in an amount of 1.5…4.5 ml/l of syrup.

Description

The invention relates to beekeeping, in particular to a method of feeding bees.

Bees collect nectar and pollen from plant flowers, which they process into food - honey and royal jelly. Bee food contains all the necessary vital nutrients - proteins, lipids, carbohydrates, minerals, vitamins. For vital processes, the bee family needs a considerable amount of food. A strong family consumes 90 kg of honey during a year: during the winter rest period - about 10 kg, and during the active vital period - spring, summer and autumn - about 80 kg (for the maintenance of the life of adult individuals, feeding larvae, wax secretion, energy consumption during flight, processing nectar into honey) (Burenin N.L., Kotova G.N., 1977).

In cases where the family's food supply (honey) is insufficient, the bees must be fed additionally. Sugar syrup is used as a substitute for honey. To stimulate the growth of brood in the spring and for the growth of queens, sugar syrup is used in a concentration of 50% (1 kg of sugar per 1 liter of water) (Krivtsov N.I., Lebedev V.I., Tunikov G.M., 2000).

The process of growing bee colonies is known, which includes feeding bees with 50% sugar syrup, into which a feed additive is introduced, containing strains of lacto- and bifidobacteria in an amount of 1·106 CFU/g, as well as, in % mass: lactulose up to 5, yeast extract up to 20, pectin up to 10, in an amount of 50…..200 mg/l of syrup [1].

The disadvantage of this process is that bees, feeding on sugar syrup supplemented with the feed additive, have reduced immunity and resistance, which leads to reduced longevity and slow growth of bee colonies. At the same time, in the spring, bee colonies fall ill with nosemosis (diarrhea), resulting in up to 30...40% losses, dead or weak colonies, with a reduced number of bees as a result of reduced resistance.

The problem solved by the proposed invention consists of normalizing metabolism, enhancing immunity, reducing mortality and increasing the strength of the bee colony in the spring and its productivity.

The problem is solved by the fact that the proposed bee feeding process includes feeding them with a mixture of 50% sugar syrup and a feed additive in the amount of 1.0 l of the mixture per bee colony, in the evening, every 10...12 days, starting from the first days of April until the beginning of the main harvest, at the same time the feed additive contains, at most, in % mass: sodium/potassium humate 0.1, yeast extract/autolysate 10.0, lactic acid 5.0, beta-glucan 5.0, water the rest and is added to the sugar syrup in the amount of 1.5...4.5 ml/l of syrup.

The feed additive used - "Vitacorm AD-1", ТУ У 10.9-31253255-002:2013, obtained from biological raw materials (baker's yeast) by autolysis of yeast cells under the action of lysosomal enzymes, improves the taste of food, improves digestion, increases immunity. It has pronounced probiotic properties, promotes the active growth of normal intestinal microflora.

Composition of the feed additive, in %, recalculated in dry matter

Proteins and amino acids - 54…56%; lipids and lipoids - 3…8%; glycogen - 24…40%; inorganic substances - 5…10%.

Ash composition

P2O5 - 47...73%; K2O - 2.8...4.0%; CaO - 0.4...11.3%; MgO - 3.0...7.4%; SiO - 0.28%; SO3 - 0.1...0.5%; Cl - 0.1...0.65%.

Microelement content, in mg per 1 kg of dry matter

Iron - 560; manganese - 80; copper - 64; zinc - 109; organic iodine, organic selenium, organic silicon.

Vitamin content, in mg per 1 kg dry matter

Vitamin B1 - 190; vitamin B2 - 25; nicotinic acid - 500…700; pantothenic acid - 102; vitamin B6 - 100; vitamin B8 - 4500; vitamin B9 - 20…40; biotin - 8…15; vitamin D - 1…5 million ME.

Amino acid content, in mg per liter of native liquid preparation

Tryptophan - 0.96; lysine - 5.4; histidine - 1.35; arginine - 2.9; aspartic acid - 5.8; threonine - 3.8; serine - 3.2; glutamic acid - 8.4; proline - 4.0; glycine - 2.95; alanine - 4.16; valine - 3.0; methionine - 2.0; isoleucine - 3.85; leucine - 4.50; tyrosine - 1.50; phenylalanine - 2.45. The total mass of amino acids is 59.0 mg.

Applying the bee feeding process, in the absence of nectar-polliniferous harvesting when food reserves in the hive are reduced, offers the following priorities: increasing bee immunity, reducing mortality, increasing the strength of the bee family in the spring, advancing queen prolificacy and honey productivity.

The result of the invention consists in increasing the immunity of bees, reducing mortality, increasing the strength of the bee family in the spring period, advancing the prolificacy of queens and honey productivity.

Example of embodiment of the invention

The bee feeding process is carried out by adding a feed additive in an amount of 1.5….4.5 ml/l of 50% sugar syrup.

The syrup is prepared as follows: the water is heated to boiling, then sugar is added in a 1:1 ratio, the solution is stirred until the sugar is completely dissolved. When the syrup has cooled to a temperature of 30°C, the feed additive is added and the mixture is stirred. The bees are fed in the evening in the spring period, from the first days of April, with one liter of sugar syrup once every 10….12 days, until the beginning of the main harvest.

To determine the optimal conditions for carrying out the proposed procedure, at the Leonid Panceha individual apiary in Ivancea village, the influence of the feed additive on increasing bee immunity, reducing mortality, stimulating resistance, normalizing the metabolic process, growth, development and productivity of bee colonies maintained in horizontal hives was studied. For this, 5 batches of bee colonies were formed, including 3 experimental and 2 as controls.

Bee colonies in experimental group I were given 1.0 l of a mixture of sugar syrup with 1.5 ml of feed additive; in experimental group II - 1.0 l of a mixture of sugar syrup with 3.0 ml of feed additive; in experimental group III - 1.0 l of a mixture of sugar syrup with 4.5 ml of feed additive.

Bee colonies from group IV (control I) were given 1.0 l of pure sugar syrup, from group V (control II) - 1.0 l of a mixture of sugar syrup with 100 mg/l of feed additive (Праймiкс - Бiонорм П).

The research results showed that on April 22, 2013, the control batches had the following indices: the strength of bee colonies - 6.8…11.0 spaces between the combs populated with bees, the amount of brood hatched - 71.2…105.3 hundred cells and honey 2.8…3.7 kg (see table).

When checking the bee colonies before the main harvest from the white locust, on May 3, 2013, it was found that their strength varied between 8.8…13.0 spaces between the combs populated with bees. The largest amount of hatched brood increased in the bee colonies from batch II, which were fed with a mixture of sugar syrup and feed additive in an amount of 3 ml/l - 151.3 hundred cells or 50 hundred cells (49.4%) more than in the control batch I and, respectively - 40.7 hundred cells (34.61%) more than in the control batch II. The bee colonies from batch I increased by 15.4…28.0%, and from batch IV by 26.9…40.9% more than in the control batches I and II. The amount of honey stored during this period varied between 6.3…9.3 kg.

When checking the bee colonies after the main harvest from the white locust, on May 25, 2013, it was established that the number of combs in the nest varied between 16.7 and 18.3 pcs. The bee colonies from batch II developed the best, which have the strength of 18.3 spaces between the combs populated with bees, or 19.6% higher than the control batch. The bee colonies from batches I and III surpassed those from the control batch by 4.6%.

Table

Morpho-productive indices of bee colonies

Batches Power, spaces between combs populated with bees Capped brood, hundreds of cells Honey, kg 22. 04. 2013 I - Sugar syrup + feed additive, 1.5 ml/l 7.3±0.33 105.3±38.72 3.3±0.88 II - Sugar syrup + feed additive, 3.0 ml/l 7.3±1.20 105.3±31.48 3.0±00 III - Sugar syrup + feed additive, 4.5 ml/l 7.3±1.20 105.3±11.20 3.7±0.33 IV - Pure sugar syrup (control I) 11.0±3.21 100.0±22.14 3.3±0.67 VI- Sugar syrup + feed additive (synbiotic complex), 100 mg/l (control II) 6.8±0.20 71.2±7.32 2.8±0.86 03. 05. 2013 (before harvesting from acacia) I - Sugar syrup + feed additive, 1.5 ml/l 9.0±1.00 129.7±12.99 6.3±0.66 II - Sugar syrup + feed additive, 3.0 ml/l 11.0±2.65 151.3±34.05 8.0±2.31 III - Sugar syrup + feed additive, 4.5 ml/l 11.0±1.15 142.7±6.36 6.3±0.33 IV - Pure sugar syrup (control I) 13.0±2.65 101.3±7.69 9.3±1.67 VI- Sugar syrup + feed additive (synbiotic complex), 100 mg/l (control II) 8.8±0.20 112.4±10.07 8.0±1.92 25. 05. 2013 (after harvesting from white locust) I - Sugar syrup + feed additive, 1.5 ml/l 16.0±3.00 147.3±3.71 35.5±8.82 II - Sugar syrup + feed additive, 3.0 ml/l 18.3±2.67 170.0±6.81* 42.5±12.95 III - Sugar syrup + feed additive, 4.5 ml/l 16.0±1.15 139.0±6.81 35.4±6.16 IV - Syrup of pure sugar (control I) 15.3±3.18 91.3±27.51 32.4±9.24 VI- Sugar syrup + feed additive (complex synbiotic), 100 mg/l (control II) - - 40.9±4.47; Note: the significance of the mean differences is authentic: * B ≥ 0.95

Feeding bees with a mixture of sugar syrup and feed additive in the amount of 3 ml/l stimulates the prolificacy of queens, which laid 1416.7 eggs in 24 hours or 656 pcs. more than the control batch. The prolificacy of queens from bee colonies that were fed with a mixture of sugar syrup and 1.5 ml/l of feed additive (batch I) was - 1227.5 pcs., of those from batch III respectively - 1158 pcs., and of those from brown batch I - 760.8 pcs.

Bee colonies in experimental group III raised 170.0 hundred cells of capped brood or 78.7 more than control group I.

It was found that the use of the feed additive in the stimulating feeding of bees in the spring period until the beginning of the main harvest from white locust increases the production of honey stored in the nest. The families in the experimental groups stored an average of 35.4…42.5 kg or 3.0…10.1 kg more, which is 3.9…31.2%, compared to the control groups.

Therefore, we can mention that based on the results of the experiments carried out, it was established that the optimal amount of feed additive is 3 ml/l, and feeding is carried out once every 10...12 days, after the general control of the apiary, until the beginning of the main harvest from the white locust.

1. MD 538 Y 2012.08.31

Claims (1)

Method of feeding bees, which includes feeding them with a mixture of 50% sugar syrup and a feed additive in the amount of 1.0 l of the mixture per bee colony, in the evening, every 10...12 days, starting from the first days of April until the beginning of the main harvest, characterized in that the feed additive contains, at most, in % mass: sodium/potassium humate 0.1, yeast extract/autolysate 10.0, lactic acid 5.0, beta-glucan 5.0, water the rest and is added to the sugar syrup in the amount of 1.5...4.5 ml/l of syrup.