MD1794Z - Process for feeding bees - Google Patents

Abstract

The invention relates to beekeeping, namely to a process for feeding bees.The process, according to the invention, comprises feeding bees in spring with a mixture of 50% sugar syrup and and inverted corn syrup in lemon balm or mint infusion, and 1.30-3.70 mL/L of a 3% aqueous solution of glucuronic acid and choline chloride, in an amount of 1.0 L of mixture per bee family every 10 days, from March to the main honey flow.The result of the invention consists in increasing the strength of bee families, the egg-laying of queens, the number of capped brood and honey production.

Description

The invention relates to beekeeping, namely to a process for feeding bees.

The honey bee family, unlike other farm animals, prepares its own food: it collects, processes, preserves it, and also creates the necessary reserves during the active period of life in the form of honey and pollen (Krasochko P., Yeremiya N. Beekeeping Products: Properties, Obtaining, Application. Monograph. 2nd ed. Chisinau-Vitebsk, Print-Caro, 2022, p. 87].

In cases where the amount of food reserve in the family is insufficient, the bees must be fed additionally, during the period of preparation for winter rest and in spring to stimulate the growth of families, in the absence of maintenance harvesting (Eremia N. Apicultura. Chişinău, 2020, p. 102).

The method of feeding bees, as a substitute for honey, using sugar is known. To stimulate the growth of brood in the spring, 50% sugar syrup is used (1 kg of sugar per liter of water) [1]. The disadvantage of this method is the wear and tear of bees, reducing their longevity, queen prolificacy, brood growth and productivity of bee colonies.

The method of feeding bees is known, which includes feeding them in the fall with a mixture of 60% inverted corn syrup and 1.0-3.0 mL/L of 3% aqueous solution of rebaudioside A, in an amount of 2.0 L per bee colony, and in the spring with a mixture of 50% inverted corn syrup and 1.0-3.0 mL/L of 3% aqueous solution of rebaudioside A, in an amount of 1.0 L per bee colony [2]. The disadvantage of this method is that the food used does not contribute sufficiently to increasing the strength of bee colonies, the prolificacy of queens and honey production.

The process of feeding bees in the spring with a mixture of 50% sugar syrup and 1.0-3.0 mL/L of an aqueous solution containing 4.91 g dehydroabietic acid, 1.08 g KOH and distilled water up to 200 mL/L, in an amount of 1.0 L of the mixture per colony is known [3]. The disadvantage of this process is that the food used does not contribute sufficiently to increasing the strength of bee colonies, the prolificacy of queens and honey production.

The method of feeding bees is known, which includes feeding them in the fall with a mixture of 60% inverted corn syrup and 1.5-4.0 mL/L of 3% aqueous solution of stevioside, in an amount of 2.0 L per bee colony, and in the spring with a mixture of 50% inverted corn syrup and 1.5-4.0 mL/L of 3% aqueous solution of stevioside, in an amount of 1.0 L per bee colony [4]. The disadvantage of this method is that the food used does not contribute sufficiently to increasing the strength of bee colonies, the prolificacy of queens and honey production.

Practice shows that, during the winter, in some years, up to 30-40% of the bee colonies are lost, and in the spring they develop poorly and, as a result, low production is obtained during harvesting.

The problem that the invention solves consists in expanding the assortment of biologically active, ecologically harmless substances, which would ensure the increase in the strength of bee colonies, the number of brood hatched, the prolificacy of queens and honey production.

The problem is solved by the bee feeding process, which includes feeding them in the spring, in the absence of a maintenance honey harvest, with a mixture of sugar syrup and inverted corn syrup, in a concentration of 50% with an infusion prepared from 50...60 g of lemon balm/mint per 10 L of water and with a biostimulator, in a dose of 1.30-3.70 mL/L, in an amount of 1.0 L of the mixture per bee colony, every 7 days, from March until the main harvest.

At the same time, the biostimulator presents a 3% aqueous solution of an equimolar mixture of glucuronic acid with choline chloride, which is used in an amount of 1.30-3.70 mL/L of sugar syrup and inverted corn syrup. To obtain the biostimulator, 3.48 grams of glucuronic acid (purchased from Aldrich) and 2.52 grams of choline chloride (purchased from Aldrich) were dissolved in 194 grams of water, thus obtaining a 200-gram solution with a 3% concentration of the biostimulator.

The result of the invention consists in increasing the strength of bee colonies, the prolificacy of queens, the number of brood hatched and the production of honey.

Example of embodiment of the invention

To prepare the syrup, in the evening, take 10 L of water, add 50-60 g of lemon balm/mint and bring to a boil, then add 5 kg of sugar and 5 liters of inverted corn syrup and stir until the sugar dissolves and let it cool. The next day, the biostimulator is added to the given syrup in various doses (1.30-3.70 mL/L), which is administered to the bees, one liter of the mixture per bee colony once every 7 days. Inverted corn syrup can be purchased from the chain of stores in 5 L bottles.

To determine the optimal conditions for carrying out the proposed process, the influence of the biostimulator on the growth, early development and productivity of bee colonies was studied at the apiary in Cojuşna village, Străşeni district.

To carry out the experiment, four batches of bee colonies were formed, three in each, according to the principles of the methods of analogs according to the number of combs, power, number of brood hatched and honey reserve in the hive.

In the spring period, in the absence of maintenance honey collection, bee colonies were administered one liter of a mixture of sugar syrup and inverted corn syrup in a concentration of 50% with an infusion prepared from 50-60 g of lemon balm/mint in 10 L of water and with biostimulator - batch I - 1.30 mL/L, batch II - 2.50 mL/L, batch III - 3.70 mL/L, batch IV (control).

Stimulative feeding was carried out with one liter of syrup, in two bags placed above the frames, starting with 25.03.2023; 1.04.2023; 9.04.2023; 16.04.2023; 22.04.2023; 29.04.2023; 6.05.2023 and 13.05.2023.

The control of bee colonies was carried out before feeding the bees (25.03.2023), at the beginning of the white acacia flowering (20.05.2023) and at the end of flowering, before extracting honey from the white acacia (9.06.2023).

When checking the bee colonies at the apiary in Cojuşna village, Străşeni district on 25.03.2023, it was revealed that at the time of the formation of the experimental batches before the start of the experiment, there were an average of 4.33-4.67 honeycombs in the nest, the strength being 3.33-3.67 spaces between the honeycombs populated with bees, the number of brood hatched - 27.33-28.3 hundred cells and the honey reserve - 2.67-3.0 kg (table 1).

Table 1

Morphoproductive indices of bee colonies before stimulating feeding, 25.03.2023

№ Administered remedy Indices Number of combs in the nest, pcs. Power, spaces between combs populated with bees Number of brood hatched, hundreds of cells Honey reserve in the nest, kg ± I. Biostimulator 1.30 mL/L 4.67±0.33 3.67±0.33 28.3±6.89 3.0±0.00 V, % 12.37 15.75 42.11 0.00 ± II. Biostimulator 2.50 mL/L 4.33±0.33 3.33±0.33 28.0±6.083 2.67±0.33 V, % 13.32 17.32 37.63 21.65 ± III. Biostimulant 3.70 mL/L 4.67±0.33 3.67±0.33 27.33±2.90 2.67±0.33 V, % 12.37 15.75 18.41 21.65 ± IV. Sugar syrup+50% inverted corn syrup with lemon balm/mint infusion, control 4.33±0.33 3.33±0.33 27.33±2.33 2.67±0.33 V, % 13.32 17.32 14.79 21.65

The coefficient of variation of morphoproductive indices ranged between 0.00% (honey reserve) and 42.11% (number of brood hatched).

When checking bee colonies on 20.05.2023, before the white acacia bloomed, it was revealed that the nest contained an average of 10-15 honeycombs and the strength - 9-13 spaces between the honeycombs populated with bees (table 2).

The families in the experimental groups increased on average by 128-167 hundred cells or by 11.72-46.11% more than in the control group. The honey reserve at the given time ranged between 2.7 and 5.0 kg. The highest prolificacy of queens was recorded in the bee families in the experimental group II, which laid 1392 eggs in 24 hours, or by 46.14% more than in the control group.

The use of the biostimulator in the spring period in the absence of a maintenance harvest ensured the growth of a large number of capped brood (167.0 hundred cells), which made it possible for the hive to be full of worker bees at the beginning of the honey harvest to be used for the honey harvest. The brood growth and the queens' prolificacy in batch II was higher than in the known procedures [2-4] by 8.51-21.49%.

Table 2

Morphoproductive indices of bee colonies before the flowering of white acacia, 20.05.2023

L. Administered remedy Indices Number of combs in the nest, pcs. Power, spaces between combs populated with bees Number of brood hatched, hundreds of cells Honey reserve in the nest, kg ± I. Biostimulator 1.30 mL/L 14.0±2.08 11.33±0.67 141.0±26.31 4.33±0.88 V,% 25.75 10.18 32.32 32.25 ± II. Biostimulator 2.50 mL/L 14.7±0.88 12.7±0.67 167.0±3.61 5.0±1.15 V,% 10.41 9.12 3.74 40.00 ± III. Biostimulator 3.70 mL/L 12.3±0.88 10.7±0.67 127.7±10.27 3.67±0.67 V,% 12.38 10.82 13.93 31.49 ± IV. Sugar syrup + 50% inverted corn sugar syrup with lemon balm/mint infusion, control 10.3±0.33 9.3±0.33 114.3±10.48 2.67±0.33 V,% 5.59 6.19 15.87 21.65

At the end of the honey collection on 9.06.2023, it was found that the nests of the bee families from the experimental batches contained an average of 22-29 combs, the strength - 18-26 spaces between the combs populated with bees (table 3). The largest number of hatched brood (133.5 hundred cells) was raised by the bee families from batch III.

Table 3

Morphoproductive indices of bee colonies before honey extraction, 9.06.2023

L. Administered remedy Indices Number of combs in the nest, pcs. Power, spaces between combs populated with bees Number of brood hatched, hundreds of cells Honey reserve in the nest, kg ± I. Biostimulator 1.30 mL/L 26.7±3.33 23.0±2.52 106.0±25.71 45.6±5.91 V, % 21.65 18.95 42.01 22.45 ± II. Biostimulator 2.50 mL/L 29.0±1.00 26.3±0.88 117.7±10.49 48.1±6.81 V, % 5.97 5.80 15.45 24.52 ± III. Biostimulator 3.70 mL/L 21.7±2.40 18.0±2.31 133.5±13.50 30.1±7.39 V, % 19.21 22.22 14.30 42.43 ± IV. Sugar syrup+invert corn syrup 50% with lemon balm/mint infusion, control 22.0±3.51 18.3±2.18 115.0±5.00 28.4±4.45 V, % 27.65 20.65 6.15 27.20

It was revealed that the bee colonies in the experimental groups stored an average of 30.1-48.1 kg of honey. The largest amount of honey was found in the bee colonies in the experimental group II - 48.1 kg or 19.7 kg (69.37%) more than in the control group.

Therefore, we can mention that the optimal dose of using the biostimulator in bee food during the spring period is 2.5 mL/L of sugar syrup.

The use of the process of feeding bee colonies with a mixture of sugar syrup and 50% inverted corn syrup with lemon balm/mint infusion (50-60 g per 10 L of water) and with the proposed biostimulator in doses of 1.30-3.70 mL/L, in the spring period one liter once every 7 days until the beginning of the white acacia flowering ensures the growth of brood and the increase in the prolificacy of queens by 46.11%, and at the end of the harvest, the honey production by 69.37% or 6.48-35.8% more than similar known solutions [2-4].

1. Krivtsov N.I., Lebedev V.I., Tunikov G.M. Пчеловодство, Москва, Колос, 2000, р. 192-200

2. MD 1612 Y 2022.04.30

3. MD 1611 Y 2022.04.30

4. MD 1598 Y 2022.02.28

Claims (1)

Bee feeding process, which includes feeding them in the spring with a mixture of 50% sugar syrup and inverted corn syrup in a 1:1 ratio in an infusion of 50-60 g of lemon balm or mint in 10 L of water, and 1.30-3.70 mL/L of 3% aqueous solution of glucuronic acid and choline chloride in an equimolar ratio, while feeding is carried out with 1.0 L of the mixture per bee colony every 7 days, from March until the main harvest.