RU2652130C2 - Method of feeding of laying hen in the second phase of productivity - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to industrial poultry farming. Method consists in mineral fodder supplement adding in feed of laying hens older than 400 days for 30 days daily in an amount of 10 kg/tonne, containing Al₂O₃; SiO₂; Fe₂O₃; CaO; Na₂O; SO₃; K₂O and KJ in a certain ratio. In this case, the feed additive is used in dry form, introducing it into the feed by mixing.

EFFECT: implementation of the invention provides extension of egg production capacity after the first peak of productivity, increasing the egg production capacity of hens and the yield of a quality egg in the second phase of productivity.

1 cl, 6 tbl

Description

The invention relates to agriculture, in particular to industrial poultry and egg production from hens of intense egg crosses.

норма, причем для быстрейшего прекращения яйцекладки в период лишения птицы корма сокращают продолжительность светового дня до 0-4 ч или же освещенность помещения понижают до 1/3 нормы ( Патент РФ №2127973, A01K 67/02, опубл. 27.03.1999).It is known that when keeping poultry in industrial conditions (at poultry farms), its productive period lasts a limited time, after which the livestock is sent for slaughter, or measures are taken to extend the life of the bird, in particular, force moulting by stress. The well-known "Method of keeping poultry", in which to call molting the bird is deprived of feed to reduce its live weight by 25-30% of the standard, after which they give compound feed, starting with

the norm, and for the quickest termination of oviposition during deprivation of poultry feed reduce the duration of daylight hours to 0-4 hours or the illumination of the room is reduced to 1/3 of the norm (RF Patent No. 2127973, A01K 67/02, publ. 03/27/1999).

However, in such methods, the release of laying hens from a hungry regimen to full feeding is not resolved, which can lead to a significant mortality of chickens, to a loss in productivity due to a greater reduction in the live weight of the chicken for additional costs.

Also known is the “Method of growing laying parent flocks” (RF Patent No. 2503250, A23K 1/16, publ. 01/10/2014, Bull. No. 1), where the probiotic additive “Hydrolactiv” is introduced into the diet of hens of intensive crosses “Highsex Brown” to increase egg production. "At a dose of 0.7% by weight of feed. With ease of use and good results, the effect on hens of the second period of egg production has not been studied.

There is also known a method in which, in order to increase the efficiency of egg production and to extend the period of industrial use of hens of an industrial herd up to 80-92-week-old poultry, for chickens older than 80-week-old they use compound feeds of the third phase enriched with a phytase-containing enzyme with an activity of 5000 units. / g in an amount of 50 g per 1 ton of feed with a level of calcium of 3.82%, total and available phosphorus of 0.55 and 0.32%, respectively (Chekaleva A.V. Extension of the period of production use of laying hens of modern egg crosses. Volog and, in 2015 Thesis for the degree of Candidate of Agricultural Sciences. 114 pp.).

The objective of the invention is to develop a method of feeding laying hens of intensive crosses to extend egg production after the first peak of productivity, which allows stress-free chicken production with an increase in the yield of a quality egg and with a final increase in income without stressful situations, without starvation and without weight loss when moving to the second phase of productivity requiring large material costs and changes in the technology of feeding and keeping chickens.

The problem is solved in that hens over 400 days are injected into the feed in the amount of 10 kg / t mineral feed additive containing, wt.%: Al ₂ O ₃ - 20-30; SiO ₂ - 20-25; Fe ₂ O ₃ - 10-15; CaO - 8-12; Na ₂ O - 12-15; SO ₃ - 3-5; K ₂ O - 0.3-0.5; KJ - 0.2, using a mineral feed additive manufactured by Sorbent-K LLC in Karpinsk, which is introduced into the feed at the beginning of the second phase of productivity for 30 days daily, while the additive is used in dry form, introduced into the feed by mixing .

Mineral feed supplement enriched with iodine, conditionally called "BS-VIT".

Mineral feed additive is a mineral biologically active substance (BAS), and its basis - White mud - BSh was previously developed as an enterosorbent. The additive is an environmentally friendly product, harmless to humans and animals, does not have a negative effect on the skin and does not irritate the mucous membranes, is non-combustible and not explosive, highly effective at low concentrations.

The basis of the BSh mineral feed additive (neutralized white sludge) is made in accordance with RF Patent No. 2473230, A23K 1/16, publ. 01/27/2013, Bull. No. 3 "Method for the production of a feed additive adsorbent" and is a fine powder of light brown color.

Previously, BS was used in its pure form without additives in doses of 2 to 6 kg / t for the prevention of mycotacticosis in broiler growing (see RF Patent No. 2555354, A61K 33/06, published on July 10, 2015, Bull. No. 19).

Mineral feed additive is produced in accordance with TU 2160-001-62028061-2014. Certificate of conformity ROSS RU.AG98.N13941 dated 02.09.2014, No. 1714007.

The instructions for the use of mineral feed additives with the addition of stabilized iodine did not provide for the use of the drug in the second phase or in the transition to the second phase of productivity in laying hens of intensive crosses in a predetermined ratio, which is the use of the known drug for a new purpose.

The novelty of the method is that the mineral feed additive with the addition of iodine is used for a new purpose for laying hens after the first phase of productivity to extend egg production in doses of 1% by weight of the feed.

The method is as follows: in the feed factory of the poultry farm, when preparing feed for laying hens, the proposed BSH-VIT feed additive 1.0% (10 kg per ton) is additionally introduced by mixing in dry form for 30-45 days. The introduction of the drug in an amount of 1% by weight of the feed almost does not violate the physical properties of the feed (density, viscosity, flowability) and does not change the processes of mechanized feeding in the buildings with the adopted feeding system, without causing any undesirable reaction in hens actively eating such feed.

After conducting a literature and patent search, laboratory studies and theoretical justification of the doses, dates and periods of introducing the feed additive into the hen’s feed after the first peak of productivity, taking into account the developmental features of the intensive egg cross chickens, search and production physiological experiments were carried out to practically confirm and justify the proposed method .

Scientific and industrial experience was carried out in 2015 under the production conditions of Irbitskaya Poultry LLC in the Sverdlovsk Region.

The object of the study was the laying hens of the cross Highsex White. The age of the bird when tested for 411 days. The duration of the experiment is 411-501 days (90 days).

To conduct the experiment on the basis of analogues, three groups of laying hens were formed: control (n = 35502), the first experimental (n = 14887) and the second experimental (n = 145 87).

The scheme of scientific and industrial experience is presented in table 1.

The control group received the main diet adopted on the farm. The experimental group (two replicates 1 and 2) was additionally introduced into the main diet the studied mineral feed additive in the amount of 10 kg per ton of feed from 411 to 441 days of life. The accounting period lasted up to 501 days.

During the experiment, evaluated:

1. Egg productivity:

- the intensity of egg laying,%, by determining the ratio of the number of eggs laid for a certain period, to the number of feed days of the same period, expressed as a percentage according to the formula:

And = B × 100 / D × P,

where And - the intensity of egg production,%,

In - the total number of eggs laid for the period, pcs.,

D - the number of days in the accounting period,

P - the number of laying hens in the group for which the records are kept,

 - gross egg collection per day, pcs., by daily counting the number of laid eggs.

2. The safety of the livestock,%, is determined by daily accounting for the case with the clarification of its causes and calculation as a percentage of the initial livestock for the periods of the study.

3. The morphological parameters of the eggs were evaluated according to generally accepted methods in the zootechnical laboratory for egg quality (the number of eggs for research - 30 pcs.):

- the mass of eggs and its components (protein, yolk, shell), g, by individual weighing on electronic scales with an accuracy of 0.01 g;

- egg shape index,%, ratio of small to large diameter;

- Howe units - according to the formula A.L. Stele (2004):

EX = 100 log (H-1.7M * 0.37 + 7.6),

where N is the height of the protein, mm

M - egg mass, g,

1.7; 0.37; 7.6 - constant coefficients;

- shell strength, N (in Newtons) - on the device, the principle of which is to determine the minimum force on the egg, which violates the integrity of the shell;

- shell thickness, mm, - micrometer.

4. The content of ash, calcium and phosphorus in the tibia of laying hens,%, was determined according to GOST 26570-95. Number of birds for research: 3 heads from each group.

The duration of the experiment is 92 days after the first peak of egg production.

Laying hens of all groups were in the same conditions of detention, in the same room with cellular content. Feed additives were introduced additionally for the experimental group of chickens before the distribution of feed.

Egg productivity of laying hens was estimated by the total number of laid eggs; from egg production per hen to a laying hen per initial, weighted average and final laying hen, the average egg weight was determined by weighing. The total egg mass, egg production per hen and egg production rate were taken into account. A widespread and operational method for expressing the egg productivity of chickens for any period of time is the intensity of egg production.

An analysis of the data obtained for this indicator indicates (table 2) that the egg production rate in all experimental groups in the studied periods exceeded the normative value (at the beginning of the experiment, the level of chicken egg production in the control group was higher by 3.7; in 1 and 2 experimental groups - by 1.6 and 0.8%), which indicates a rather high culture of livestock and veterinary services at the poultry farm.

The introduction of the proposed mineral feed additives in addition to the main diet from 411 to 441 days of the productive period had a positive effect on the egg production intensity of the experimental laying hens. Despite the slight lag of the experimental chickens for this indicator at the beginning of the experiment (411 days) from the control (1 experimental group of hens - 2.1%, 2 experimental group - 2.9%), 30 days after feeding the supplement (in 442 -day age) observed an increase in the intensity of egg production in hens of the 1st experimental group compared with the control peers by 4.0%, and in birds of the 2nd experimental group - by 2.0%. At the same time, the level of egg production intensity in the control bird decreased by 2.1% compared to the starting value, and in the 1st and 2nd experimental groups it increased by 4.0 and 2.8%, respectively.

The use of mineral feed additives in the diet of chickens caused an increase in bird productivity not only during its use (411-441 days), but also provided this advantage over the next 2 months. So, at 471 days of age, the egg laying intensity of laying hens of the experimental group 1 was higher than the control by 1.9%, in hens of the 2nd experimental group - by 3.9%, and at the age of 501 days - by 2.9 and 5.0%, respectively .

The total egg harvest per day per 1000 chickens at the beginning of the experiment was lower than the control in 1 and 2 experimental groups by 22 and 30, respectively. After a 30-day introduction of the supplement into the diet, this indicator increased in the 1st and 2nd experimental groups, respectively, at 442-day-old age groups by 40.1 and 19.8 units, and at 471-day-old age - by 19.6 and 39.4 units. , at 501 days of age - by 31.1 and 51.8 pcs. - Table 3.

The analysis of the safety of the livestock showed that before the start of research - in the period 381-411 days, this indicator in the 1st and 2nd experimental groups was lower than in the control by 0.4 and 0.5%, amounting to 98.1% in the control group, in 1 experimental group - 97.7; in the 2nd experimental - 97.6%. During the observation period (411-501 days), the safety of the livestock in the experimental groups was also lower compared with the control on average - by 0.8%. Thus, the introduction of the studied additives in the diet of chickens did not affect this analyzed indicator - Table 4.

Egg mass is one of the main, well-inherited criteria of a breeding program. Selection is carried out to obtain an egg with market weight from the very beginning of the laying process, while at the same time not allowing its excessive increase by the end of the cycle. Each breed and cross has a range of egg masses, which can range from 3-4 g depending on the content and feeding.

The data of morphological analysis of eggs, shown in table 5, indicate that in all groups an increase in egg mass is noted with age. So, on average, compared to the beginning of the experiment (411 days) at the age of 442 days, the egg mass in the experimental groups increased by 2.7%. Moreover, the addition of a mineral feed additive to the diet did not affect this indicator: in the control, the egg weight was 64.2 g, in the first experimental group - 63.92 g, in the second experimental group - 64.0 g.

The mass of protein in the experimental groups at 442 days of age compared with the beginning of the experiment decreased by an average of 1.8%; the yolk mass, on the contrary, increased by an average of 14.9%, and with respect to the mass of the shell, no significant age-related differences were found. There was no difference between the control and experimental groups by weight of protein, yolk and shell after feeding additives.

The egg shape index did not change with age in groups. The introduction of the studied supplement into the chicken diet did not affect its level: in the control group it amounted to 77.5%, in the first and second experimental groups 76.9 and 78.1%, respectively.

An egg shell is a calcareous membrane that takes part in the mineral metabolism of a developing organism and protects the contents of an egg from adverse external influences. The shell serves as a kind of primary packaging created by nature itself, so the contents of an egg obtained from a healthy bird are sterile. For the formation of the shell, the bird first uses the calcium contained in the digestive tract, dissolved by abundant secretion of hydrochloric acid. With a lack of this calcium, the use of bone stocks begins. All methods of greater accumulation of calcium in the muscle stomach have a positive effect on the strength of the shell.

From the analysis of table 5 it follows that the indicator of the strength of the shell with age did not tend to a significant change in the experimental groups. The use of mineral feed additives contributed to the increase of this indicator in experimental individuals. At the age of 442 days, in birds of the 1st and 2nd experimental groups, the shell strength was higher than the control by 3.0 and 2.8%.

The thickness of the shell is one of the most important indicators of the quality of eggs, performing the function of an external protective barrier of an egg from adverse factors. A bird that lays eggs without shells or with very thick shells lacks calcium in the diet or has an impaired function of the oviduct.

In the experiment, the thickness of the eggshell in the experimental birds did not change with age. However, 30 days after the addition of the mineral supplement (at the age of 442 days) in the 1st and 2nd experimental groups, the shell thickness was higher than the control value by 0.01 mm or 2.7%.

The increase in the strength and thickness of the shell is due to the presence of a macroelement - calcium in the composition of the additive in the form of sufficiently accessible forms - calcium hydroxide, calcite and tricalcium aluminate. Additional provision of chickens in the second phase of egg laying (41-65 weeks) with accessible forms of calcium in the diet will help to reduce the percentage of eggs left due to a decrease in the quality of the shell (fight, notch, egg without shell) with increasing age of the chickens.

One of the main indicators of egg quality is the quality of its protein. The protein contains the pigment ovoflavin. The thickness of the albumin layer becomes thinner over time, because the protein in the eggs changes its characteristics. In the eggs of hens of the control group at the age of 442 days, the protein was more liquid, as evidenced by a decrease in the height of the protein, in contrast to the indicators of eggs 1 and 2 of the experimental groups, where the protein became denser. So, the egg protein height in the 1st experimental group was higher than the control by 1.5%, and in the second group by 2.9%.

Differences in protein height were reflected in the indicator - units of Howe. At 442 days of age, the excess of Howe units in the 1st and 2nd experimental groups of chickens, who received a mineral feed supplement in addition to the main diet, amounted to 0.3 and 1.14%, respectively, compared to the control.

There were no significant differences in acid number in the yolk between the groups, all values were within the normal range - not higher than 5 mg KOH per 1 g of yolk, amounting to 3.12 mg KOH / g in the control, and 3 in groups 1 and 2 of the experimental group , 04 mg KOH / g

In general, analyzing the studied groups according to the morphological parameters of eggs, we can conclude that the use of the feed additive “BSh-VIT” in addition to the main ration of laying hens of the industrial herd had a beneficial effect on the quality of the eggs, primarily the quality of the eggshell - its strength and thickness as well as protein height.

An obvious effect of the method is that this drug, being a multicomponent mineral agent with sorption properties, improves the availability and assimilation of biologically active substances in the body of a laying hen and their deposition in an egg, which is very important for obtaining eggs with high rates of eggshell and internal quality .

Intensive exploitation of laying hens causes significant changes in their skeleton. Productivity of chickens is closely related to the metabolism in bone tissue. The skeleton determines the potential of the laying hen in terms of its productivity. The chemical composition of the tibia of laying hens is shown in table 6.

The ash content in the tibia of chickens with age increased in all groups by an average of 3.9%. A tendency to increase this indicator in laying hens 1 and 2 of the experimental groups compared with the control at 442 days of age by 0.6 and 0.4%, respectively, was noted.

Note: * P≤0.05

A chemical analysis of bone tissue established a significant increase in calcium in the 2nd experimental group by 18.5% (P≤0.05) and a tendency to increase the level of phosphorus by 2.5 and 11.4%, respectively, in the 1st and 2nd experimental groups. This indicates the activation of calcium-phosphorus metabolism in the body of chickens under the influence of supplements, which is especially important for laying hens at the time of falling egg productivity below 90%.

Thus, according to the results of studies of bone tissue, it follows that the addition of a mineral feed supplement to the main diet improved the bird's ability to create a medullary reserve of bone, which is an additional source of calcium during the formation of the egg shell. During a period of intense mineral metabolism (during egg laying) of birds, along with the “wear” of the gastrointestinal tract, the skeleton functions as a labile depot of mineral substances that are consumed for production, resulting in an increased need for medullary reserve of bone as a source of calcium and phosphorus.

The calculation of the economic efficiency of using mineral feed additives in the diet of laying hens of an industrial herd of the second phase of productivity was carried out per 1000 heads. In this case, the following was taken into account: the number of additionally obtained eggs in the experimental groups (according to the difference with the control); food intake by a bird during the study period (140 g / goal / day); the cost of the supplement (40 rubles per 1 kg of the drug); the cost of 1 egg (4 rubles).

It was established that after 30-day feeding of the drug at the age of 442 days, the additional income per 1000 laying hens per day amounted to 89.1 and 52.2 rubles. respectively in 1 and 2 experimental groups. Additional income per 1000 chickens per day on average for the study period (411-501 days) amounted to 56.4 and 78.4 rubles, respectively, in the 1 and 2 experimental groups.

According to the totality of the results obtained in the scientific and economic experiment on a modern cross of hens of industrial flocks, it follows that the use of the proposed mineral feed additive in the diet of hens according to the proposed scheme has a pronounced stimulating activity of metabolic processes in the bird's body, which is associated with a decrease in the detoxification load on the gastrointestinal the tract and liver of the bird, and the ion-exchange properties of the drug, contributing to the introduction of the digestive tract. Thanks to this mechanism, a favorable environment is created for the absorption of feed nutrients and their effective use in the body, manifesting itself in the formation of higher productivity.

It should also be noted that the positive difference between the tested mineral feed additive and the action of other therapeutic and prophylactic agents is the possibility of achieving a prolonging effect. Thus, the research results showed that a higher percentage of egg laying intensity of the experimental laying hens, obtained after 30-day feeding of the mineral feed additive, was higher than the control for the next 2 months of the productive period.

Mineral feed supplement can be a worthy alternative to inorganic sorbents on the feed market. At the same time, it is important to consider that domestic raw materials are used for its production, and the technology for producing the drug is flexible, focused on the requirements and demands of the consumer.

An obvious effect of the method is that without violating the standard diet for feeding chickens after the first phase of productivity, without creating stress and using only the proposed preparation in the indicated doses according to the proposed scheme, it is possible to significantly increase the egg production of chickens at a slight additional cost, which is accompanied by an increase in the efficiency of the poultry farm and poultry industries.

Thus, the use of mineral feed additives in a herd of laying hens in the second phase of productivity according to the proposed the method is effective and can be recommended for use in poultry farms and farms.

Claims (1)

. A method of feeding layers in the second phase of productivity, including the introduction of a biologically active additive in the main diet, characterized in that 10 kg / t of mineral feed additive containing, wt.%: Al ₂ O ₃ - 27.3-30; SiO ₂ 22.3-25; Fe ₂ O ₃ - 12.3-15; CaO 9.3-12; Na ₂ O - 12.3-15; SO ₃ - 3-5; K ₂ O - 0.3-0.5; KJ - 0.2.