MD1793Z - Process for feeding bees - Google Patents

Abstract

The invention relates to beekeeping, namely to a method for feeding bees. The method, according to the invention, includes feeding bees in the spring with a mixture of 50% sugar syrup and 2.50-3.70 ml/l of a 3% aqueous solution of glucuronic acid, in an amount of 1.0 l of the mixture per bee colony every 10 days, from March until the main honey flow. The result of the invention consists in increasing the strength of bee colonies, the egg-laying capacity of queens, the amount of sealed brood and honey production.

Description

The invention relates to beekeeping, in particular to a method of 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 process 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 process is that it wears out the bees and reduces their longevity.

It is known to feed bees in the fall with a mixture of sugar syrup and extract of glycosides dehydroconiferyl alcohol-9`-O-β-D-glucopyranoside and dehydroconiferyl alcohol-9-O-β-D-glucopyranoside, in the amount of 1.0 L of amethec per bee colony [2]. The disadvantage lies in the growth of brood and reduced queen brood.

The bee breeding process is known, which includes feeding them with a mixture of 50% sugar syrup and 30.0...120.0 mg/L of the iridoid glycoside 1-epi-5-O-allosylantirinoside, in an amount of 1.5-3.0 L per bee colony, 1-2 times in the fall, with an interval of 5-9 days, and 1.0 L in the spring [3]. The disadvantage lies in the growth of the brood and the reduced queen brood.

It is known to feed bees in the fall with a mixture of 60% sugar syrup and 1.5-4.0 mL/L of aqueous stevioside solution, in an amount of 3.0 L per bee colony, and in the spring with 50% sugar syrup and 1.5-4.0 mL/L of 3% aqueous stevioside solution, in an amount of 1.0 L of the mixture per colony [4]. The disadvantage of this process is that the food used does not contribute sufficiently to increasing the strength of the bee colony.

It is known to feed 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 up to 200 mL distilled water, in an amount of 1.0 L of the mixture per colony [5]. The disadvantage of this process is that the food used does not contribute sufficiently to increasing the strength of the colony, the brood and the queens' eggs.

The problem solved by the invention consists in expanding the range of ecologically harmless biologically active substances, which would ensure the increase in the strength, growth and development 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 with a mixture of 50% sugar syrup and 2.50-3.70 mL/L of biostimulator, in an amount of 1.0 L of the mixture per bee colony, every 10 days, starting in March until the main harvest.

At the same time, the biostimulator used is a 3% aqueous solution of glucuronic acid, which is used in an amount of 2.50-3.70 mL/L of sugar syrup. To obtain the biostimulator, 6 grams of glucuronic acid (purchased from Aldrich) were dissolved in 194 grams of water.

The bee feeding process includes feeding them in the spring and has a high effect on increasing the strength and prolificacy of queens, the early development of bee colonies, and increases their productivity.

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

Example of embodiment of the invention

The bee feeding process is carried out by feeding them in the spring, in the absence of a maintenance honey harvest, with a mixture of 50% sugar syrup and 2.50-3.70 mL/L of biostimulator, in an amount of 1.0 L of mixture per bee colony, every 10 days, starting in March until the main harvest.

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 Peticeni village, Călăraşi 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.

During the spring period, in the absence of maintenance honey collection, bee colonies were administered one liter of a mixture of 50% sugar syrup with biostimulator - batch I - 1.30 mL/L, batch II - 2.50 mL/L, batch III - 3.70 mL/L, batch IV (control) - pure sugar syrup.

Stimulative feeding of bees was carried out with one liter of syrup every 10 days, starting with 24.03.2023; 3.04.2023; 13.04.2023; 23.04.2023 and 3.05.2023.

The control of bee colonies was carried out before feeding the bees (24.03.2023), at the beginning of the white acacia flowering (24.05.2023), at the end of flowering, before extracting honey from the white acacia (7.06.2023) and at the end of the linden flowering, before extracting honey (14.07.2023).

The results of research conducted at the apiary in Peticeni village, Calarasi district demonstrated that at the time of batch formation before the stimulating feeding, the bee colonies had an average of 5.33-5.67 combs, the strength - 3.67-4.67 spaces between the combs populated with bees, the number of brood hatched - 55.0-58.67 hundred cells and the honey reserve 2.67-3.0 kg (table 1).

Table 1

Morphoproductive indices of bee colonies before stimulating feeding, 24.03.2023

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. Glucuronic acid 3%, 1.30 mL/L 5.33±0.333 4.33±0.333 56.0±3.00 3.0±0.00 V,% 10.82 13.32 9.28 0.00 ± II. Glucuronic acid 3%, 2.50 mL/L 5.67±0.333 4.67±0.333 58.67±12.115 2.67±0.333 V,% 10.19 12.37 35.67 21.65 ± III. Glucuronic acid 3%, 3.70 mL/ L 5.67±0.333 4.67±0.333 56.67±2.906 2.67±0.333 V,% 10.19 12.37 8.88 21.65 ± IV. Pure sugar syrup, control 5.67±0.333 3.67±0.333 55.0±4.726 3.0±0.00 V,% 10.19 12.37 14.82 0.00

The coefficient of variation of morphoproductive indices ranged between 0.00% (honey reserve) and 35.7% (number of brood hatched).

During the inspection carried out on 24.05.2023, before the white acacia blossomed, it was found that the bee family nest contained an average of 13.7-18.0 honeycombs, the strength being 12.0-15.0 spaces between the honeycombs populated with bees, the number of brood hatched 144.7-187.0 hundred cells and the honey reserve - 2.67-3.3 kg, which confirms the lack of maintenance honey collection (table 2).

Table 2

Morphoproductive indices of bee colonies before the flowering of white acacia, 24.05.2023

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. Glucuronic acid 3%, 1.30 mL/L 13.7±0.3882 12.0±1.00 144.7±22.101 3.3±0.882 V,% 11.18 14.43 26.46 45.83 ± II. Glucuronic acid 3%, 2.50 mL/L 18.0±1.155 15.0±1.528 172.7±26.295 2.67±0.333 V,% 11.111 17.64 26.38 21.65 ± III. Glucuronic acid 3%, 3.70 mL/L 16.7±2.028 15.0±2.333 187.0±10.263 3.0±0.577 V,% 21.07 26.67 9.51 33.33 ± IV. Pure sugar syrup, control 16.0±1.528 13.3±1.856 155.3±22.835 2.67±0.333 V,% 16.54 24.11 25.46 21.65

Stimulant feeding of bee colonies with the use of the biostimulator had a positive influence on the prolificacy of queens, which was 11.20% and 20.41% higher in the experimental groups (II and III) compared to the control group.

At the end of the honey collection from the white acacia on 7.06.2023, it was found that the bee colonies developed with an average of 20.7-26.7 honeycombs in the nest and the strength - 19.3-25.0 spaces between the honeycombs populated with bees (table 3).

The highest number of hatched brood was raised by bee colonies from group II - 206.3 hundred cells or 57.6% more than in the control group. The prolificacy of queens from the experimental groups varied between 1269 and 1719 eggs in 24 hours or 16.42-57.6% more than in the control group.

Table 3

Morphoproductive indices of bee colonies before extracting honey from acacia, 7.06.2023

Administered remedy Indices Number of combs in the nest, pcs. Strength, spaces between combs populated with bees Number of brood hatched, hundreds of cells Honey reserve in the nest, kg ± I. Glucuronic acid 3%, 1.30 mL/L 20.7±1.764 19.3±1.453 172.0±46.307 40.6±5.16 V,% 14.78 13.02 46.63 21.99 ± II. Glucuronic acid 3%, 2.50 mL/L 26.7±3.333 25.0±3.00 206.3±4.667 53.3±7.247 V,% 21.65 20.78 3.92 23.55 ± III. Glucuronic acid 3%, 3.70 mL/L 23.3±3.333 21.3±3.333 152.3±17.401 53.0±4.305 V,% 24.74 27.06 19.78 14.06 ± IV. Pure sugar syrup, control 23.7±2.728 21.0±2.646 130.9±10.914 41.4±3.985 V,% 19.96 21.82 14.50 16.66

The use of the biostimulator in the spring period in the absence of a maintenance harvest ensured the growth of a large number (206.3 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 queen bee prolificacy in the control group was on average 1090 eggs in 24 hours. The proposed process increases the queen bee prolificacy and brood growth by 12.58-36.6% more than previously known processes [2-5].

In the difficult conditions of 2023, the most productive were the bee colonies in batch II, which stored an average of 53.3 kg of honey during the flowering of the white acacia, or 11.9 kg (28.74%) more than in the control batch. The coefficient of variation of the morphoproductive indices ranged between 3.92% and 46.63% (number of brood hatched). The apiary being located in the forest area, we recorded the development and productivity of the bee colonies during the flowering of the linden (table 4).

Table 4

Morphoproductive indices of bee colonies before honey extraction from lime trees, 14.07.2023, apiary in Peticeni village, Călăraşi district

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. Glucuronic acid 3%, 1.30 mL/L 23.0±3.00 21.3±2.848 116.3±8.373 31.2±7.400 V,% 22.59 23.10 12.47 41.08 ± II. Glucuronic acid 3%, 2.50 mL/L 25.0±2.887 22.7±3.180 - 35.2±8.742 V,% 20.00 24.30 - 42.97 ± III. Glucuronic acid 3%, 3.70 mL/L 27.0±1.528 24.0±1.528 130.0±13.796 34.4±6.142 V,% 9.79 11.02 18.38 30.92 ± IV. Pure sugar syrup, control 23.3±1.856 21.7±2.196 116.7±16.014 31.5±5.948 V,% 13.78 14.47 23.77 32.64

The results of the study showed that on July 14, 2023, before extracting honey from the linden tree, the bee families' nests contained an average of 23.0-27.0 honeycombs, had a strength of - 21.3-24.0 spaces populated with bees, the number of brood hatched - 116.3-130.0 hundred cells, the amount of honey stored in the hive - 31.2-35.2 kg.

Analyzing the production of honey stored in the hive from two honey harvests (acacia and linden), we can mention that the largest quantity of honey was obtained from bee colonies in batch II - 88.5 kg with limits between 57.0 and 104.8 kg (table 5).

Table 5

Stored honey production from white acacia and linden, kg

Batch Total quantity of honey, kg V,% Limit (min. - max.) I Glucuronic acid 3%, 1.30 mL/L 71.8 ± 12.286 29.62 55.9 - 96.0 II Glucuronic acid 3%, 2.50 mL/L 88.5 ± 15.769 30.85 57.0 - 104.8 III Glucuronic acid 3%, 3.70 mL/L 87.4 ± 10.336 20.48 73.5 - 107.6 IV Pure sugar syrup, blank 72.9 ± 9.831 23.36 60.0 - 92.5

Increasing the dose of biostimulator per liter of sugar syrup did not increase the productivity of bee colonies.

Therefore, we can mention that the optimal dose of using the 3% glucuronic acid biostimulator in bee food during the spring period, in the absence of a maintenance honey collection, is 2.5 mL/L.

Using the bee feeding process in the spring, in the absence of a maintenance honey collection, with a mixture of 50% sugar syrup with biostimulator in doses of 2.50-3.70 mL/L syrup, administered one liter once every 10 days, ensures an increase in the strength of bee colonies by 19.05%, the number of brood hatched and the prolificacy of queens by 57.6% and honey production by 21.4-28.74%.

1. Krivtsov N.I., Lebedev V.I., Tunikov G.M. Beekeeping. Moscow, Kolos, 2000, p.192-200

2. MD 1326 Y 2019.03.31

Claims (1)

Bee feeding process, which includes feeding them in the spring with a mixture of 50% sugar syrup and a 3% aqueous solution of glucuronic acid in an amount of 2.50-3.70 mL/L, while feeding is carried out with 1.0 L of the mixture per bee colony every 10 days, from March until the main harvest.