RU2680450C1 - Method of feeding hens of industrial herd - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to agriculture, in particular to a method for feeding hens of an industrial herd at the end of a productive period at the age of 480 days. Method includes the introduction of ToxiNon in the amount of 13 % per 1 ton of feed into the main ration of the feed additive for 10 days daily.EFFECT: use of the invention will increase the egg production of chickens.1 cl, 1 dwg, 6 tbl

Description

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

It is known that when keeping poultry in industrial conditions (at poultry farms), its productive period lasts for a limited time - after which the livestock is sent to slaughter, or measures are taken to extend the life of the bird, in particular, force moulting by stress. The most common is the zootechnical method of inducing forced molting by starvation, the duration of the deprivation of feed varies in different modes from 3 to 14 days (see Guidelines for the use of forced molting of chickens of the broiler’s parent flock. - All-Union Science and Technology. Institute poultry farming. - Zagorsk, 1976).

нормы, 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. В течение всего периода лишения корма птице ежедневно дают по 1-12 г на голову ракушки или известняка (см. Патент РФ №2127973. А01К 67/02. Опубл. 27.03.1999).The “Method for keeping poultry” is also known, 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

norms, and for the quickest termination of egg laying during deprivation of poultry, feed reduces the duration of daylight hours to 0-4 hours or the illumination of the room is reduced to 1/3 of the norm. Throughout the entire period of deprivation of food, birds are given 1-12 g daily per shell or limestone head (see RF Patent No. 2129773. A01K 67/02. Publ. 03/27/1999).

However, in these methods, the release of laying hens from the hungry regime to full feeding was not solved, which can lead to a significant mortality of chickens, to a loss in productivity due to a greater decrease in live weight of chickens and additional costs.

Also known is the "Method of growing laying hens of the parent herd" (see RF patent No. 2503250, A23K 1/16. Publ. 10.01.2014, Bull. No. 1), in which to increase egg production in the diet of chickens of intensive crosses Highsex Brown, the probiotic additive " Hydrolaktiv "at a dose of 0.7% by weight of feed. With the ease of use and good implementation results at the first stage of egg production, its effect on hens at the end of the egg production period has not been studied.

Also known is the "Method of growing repair young animals for the parent herd of chickens" (see RF Patent No. 2495588, A23K 1/165; A01K 31/00. Publish. 10/20/2013, Bull. No. 29), in which from 1 to 5 weeks hens administer by evaporation the probiotic preparation "Monosporin" at the rate of 3 ml per 100 animals per day for 10 days, from a period of 16 to 21 weeks, and in the first phase of productivity from 22 to 45 weeks, the probiotic preparation "Bacell" is introduced into the diet in the amount of 0.2% by weight of feed.

With some difficulty in changing the drugs, the duration of the effects of drugs at the end of the productive period has not been studied, it requires adjustment and detailed justification.

The objective of the invention is to develop a method of feeding laying hens of an industrial herd of intensive crosses to extend egg production after a peak of productivity, which allows without increasing the mass at the end of the productive period to increase the egg production of hens of an industrial herd with a final increase in income from keeping hens of intensive egg crosses, which does not require large material costs and changes in the technology of feeding and keeping chickens of intensive crosses.

The problem is solved in that laying hens of an industrial herd, with a decrease in productivity, additionally add to the main diet ToxiNon feed additive in an amount of 13% per 1 ton of feed for 10 days daily (manufactured by BentIzol LLC in Kurgan), the preparation is used in dry form , introducing into the feed by mixing.

The toxinon feed additive is a feed additive for the adsorption of mycotoxins in feed for farm animals, including birds. It includes components: dioctahedral montmorillonite (up to 84%), zeolite (up to 18%), highly dispersed silica (1-3%); contributes to the preservation of immunity, increases the safety and productivity of poultry, improves feed conversion; forms irreversible complexes with mycotoxins in the digestive tract. This product has the properties of a molecular sieve (see Instructions for use of the toxiNon feed additive. Reg. Number PVR-2-3.15 / 03127).

The novelty of the method is that the toxinon feed additive is used for a new purpose in laying hens of an industrial herd at the end of the productive period from 480 days of age to increase egg production at a dose of 13% per 1 ton of feed.

The method is as follows: in the feed factory of a poultry farm, when preparing feed for laying hens, feed additive Toxynon 13% is introduced into the feed by mixing for 10 days daily. The introduction of the toxiNon feed additive in a given dose practically does not violate the physical properties of the feed (density, viscosity, flowability) and does not change the mechanized feeding processes in the buildings with the adopted feeding system, without causing any undesirable reaction in chickens actively eating such food.

After conducting a literature and patent search, laboratory studies and theoretical justification of the doses, dates and periods of introducing the toxiNon feed additive into the feed of the industrial herd of laying hens at the end of the production period at the age of 480 days, taking into account the peculiarities of the development of hens of intensive egg crosses, search production and physiological experiments for the practical confirmation and justification of the proposed method.

Scientific experience was conducted at the Ural Scientific Research Veterinary Institute and in the poultry enterprise in the Sverdlovsk Region, at the industrial herd of laying hens cross Lomann White. We selected 2 groups of hens at the age of 480 days, 30 animals each, taking into account live weight and egg productivity by the method of balanced groups. The scheme of scientific and industrial experience is presented in table 1.

The duration of the experiment is 10 days from 480 days of age of laying hens (at the end of the productive period). Laying hens of all groups were in the same conditions of detention, in the same room with cellular content. The feed additive was introduced to the hens of the experimental group as part of the feed.

The poultry of the industrial herd was kept in capital premises with controlled microclimate conditions. The poultry houses are windowless, which allows you to apply the desired light mode at any time of the year. Equipped with heating and ventilation system.

Contain chickens of industrial herds in cell batteries. At the poultry farm - four-tier cell batteries KBN-4. Hens were kept individually - 1 head per cage. The cell battery is equipped with a hopper feeder, nipple drinkers and belt conveyors to remove litter.

The egg productivity of laying hens was estimated by the total number of eggs laid; by egg production per one average 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.

The dynamics of live weight of laying hens was estimated by weighing at the beginning and at the end of the experiment 30 goals from each group. Expected change in live weight from the original. Qualitative indicators of eggs were estimated by the mass fraction of vitamins A, E, and B2, and the amount of potassium, sodium, chlorine, calcium, and phosphorus was determined by the HPLC method based on the Federal State-Funded Scientific Research University Ural NIVI. Economic efficiency was calculated according to the method proposed by the Russian State Technical University - Moscow Agricultural Academy named after K. Timiryazev. Statistical processing of the results was carried out on a PC using EXSEL programs.

The nutritional ration corresponded to the norms of feeding industrial laying hens during the productive period; PK-1-2 compound feed produced by Bogdanovichsky Feed Mill OJSC (Bogdanovich, Sverdlovsk Region) was used. Table 2 presents data on the dynamics of the egg-laying intensity of laying hens during the experiment.

From table 2 it follows that the highest intensity of egg production was obtained from laying hens of the experimental group. If we take into account that before the start of the experiment, egg laying in layers at the end of the productive period at the beginning of the experiment was 70%, which is 10% lower than the normative values (Recommendations for working with cross-country Lohmann White, p. 13). Compared with the control group, the egg production during the test period changed due to the use of the ToxiNon feed additive at the rate of 13 kg per 1 ton of feed. In the control group, it steadily decreased to 68%, and in the experimental group, the use of Toxinone increased egg production compared to the beginning of the experiment by 8%, and compared with the control by 10%. It should be noted that productivity of 78% is closer to the standard value of 80%. Consequently, the use of the feed supplement ToxiNon contributed to an increase in the egg laying intensity at the end of the productive period and supported it within the limits of genetically incorporated productivity. It should be noted that the aftereffect of the toxinon feed additive has been identified. So, after feeding the supplement, the egg-laying intensity was maintained at a high level for 30 days and amounted to 72% in the experimental group and 60% in the control group, with a difference of 12%.

It is known that a change in live weight leads to a change in egg production and possibly death. Therefore, the live weight of laying hens during the test period was studied. The live weight was within the standard values, both at the beginning and at the end of the test. Thus, in addition to increasing egg production, the use of ToxiNon feed additive has an additional positive effect on reducing feed conversion. Productivity data are presented in table 3.

* at p <0.05, the difference with the control group is significant

In the experimental group for the period of the experiment, 0.98 eggs were obtained per average laying hen, and in the control 0.8 eggs, the difference was 0.18 eggs. Safety in the control and experimental group was 100%. By weight of the egg revealed differences. So, in the experimental group, a significant decrease in egg mass was established (at p <0.05) compared with the control of 64.0 g versus 66.9 g, respectively. The standard egg weight is 64.4-64.5 g during the study period at the age of 68-70 weeks (Recommendations for working with Cross-country Lohmann-white). The differences in egg mass during the experiment were obtained; they amounted to 2.68 kg in the control group and 3.14 kg in the experimental group.

FIG. 1 - Layer productivity curve.

The productivity curve shows that there is a tendency to increase the yield of eggs, which indicates the effectiveness of the developed method.

Since the studies were carried out on the livestock of industrial herd chickens, an analysis was made on the nutritional suitability of eggs. The assessment made it possible to establish the effectiveness of the toxiNon feed additive used at the rate of 13 kg / t of feed.

Based on the results of the study of the chemical composition of the shell, it follows that the feed mineral additive does not change the mineral composition of the shell on the background of its use, which is a positive effect (data are presented in table 4).

The analysis of table 4 indicates that there are no significant differences in the studied indicators.

In the eggs from the experimental laying hens, an increase in the mass fraction of vitamin A and E was found to be 1.2 and 1.5 times, respectively (table 4), which indicates the best preservation of these vitamins due to a decrease in lipid peroxidation in the body of chickens against the background application of feed additives. Egg yolk is a source of vitamin B2 (riboflavin). The content of riboflavin in the yolk from laying hens fed the toxinon feed supplement was significantly higher - 1.6 times.

When conducting chemical studies of egg protein, a decrease in potassium of 10.1% was established compared with the control. Due to changes in the sodium and potassium content in the egg protein, their ratio normalized to 1.2.

The use of the toxiNon feed supplement did not affect the balance of calcium and phosphorus in the egg protein.

Complex laboratory studies of blood of laying hens were carried out. To monitor the quality of poultry’s health and increase production, homeostasis studies are used, its change can be considered as indicators of the body’s adaptation to industrial conditions, since complex neuroendocrine, immune and metabolic disorders that characterize the body’s response are reflected in morphological, immunological , biochemical compositions of the blood.

The dynamics of blood parameters (white blood cells, T- and B-cell populations, phagocytosis activity, concentration of circulating immune complexes, enzymatic activity, etc.) is an indicator of the intensity of processes under the influence of various factors, which can be taken into account for more effective preventive measures in poultry enterprises.

Analysis of the results of a hematological study of blood of laying hens of the control and experimental groups did not reveal significant differences between the parameters characterizing the red blood sprout.

In this case, both in the control and in the experimental groups, the indicators of red blood were within the reference values. Therefore, the studied feed additive did not adversely affect the hematopoiesis system.

However, hematological parameters characterizing white blood had a number of significant differences. The absolute concentration of leukocytes in the experimental group tended to increase and amounted to an average of 31.6 ± 2.93 * 10 ⁹ / L, which was 20% higher than in the control group. The increase in the absolute concentration of leukocytes in the blood of chickens of this experimental group was due to an increase in the relative number of lymphocytes in the composition of the leukocyte formula. So, the number of lymphocytes was 72.4 ± 1.21%, which is 5% higher than in the control group. This tendency to increase in the composition of white blood of laying hens receiving a feed supplement indicates activation of the production of immunocompetent cells.

The revealed changes in the hematological parameters of blood of laying hens treated with a feed supplement are confirmed by an analysis of immunological parameters. Activation of the production of immunocompetent cells contributed to an increase in the absolute number of T-lymphocytes, which in turn affected the decrease in the relative number of B-lymphocytes. So, the absolute number of T-lymphocytes averaged 10.66 ± 1.05 * 10 ⁹ / L, which is 24% higher, and the relative number of B-lymphocytes was 21.8 ± 0.86%, which is 8 lower % compared with the control group. As a result of changes in the ratio of T and B lymphocytes, the immunoregulatory index increased and amounted to 2.16 ± 0.13 cu, which is 10% higher than in the control group. The remaining immunological blood parameters of laying hens receiving the feed supplement did not have significant differences with the control group.

Thus, the analysis of the results of immunohematological studies showed that feeding the laying hens of the feed additive for 10 days has a positive effect on the production of immunocompetent cells, which favorably affects the stabilization of the ratio of cells of the humoral and cellular parts of the immune system, which contributes to an increase in the level of general and natural resistance the body of chickens.

The results of biochemical studies are crucial not only for making a diagnosis, but they can also be used to assess the level of metabolic reactions in the body, since the processes taking place in the body affect the composition and properties of the blood, it can be used to judge the metabolic rate, which determine productive qualities of poultry.

As a result of studies of the biochemical parameters of the blood plasma of laying hens with the use of a feed additive, a number of effects were revealed (table 5).

First of all, an increase in glucose in the blood plasma of laying hens was observed against the background of the use of a feed additive by 22.8%, which indicates its positive effect on gluconeogenesis processes and energy balance.

The experimental group showed an increase in calcium content in blood plasma by 13.2%, which led to the normalization of the calcium-phosphorus ratio of 3.02 against 2.51 in the control at a rate of 3.0.

In poultry in the experimental group, a significant increase in uric acid content by 70.6% was noted, while the effect is more pronounced in the experimental group, which indicates that the mineral components play a key role in this, that is, they improve the binding processes of protein and purine products exchanges.

In laying hens in the experimental group, a decrease in the activity of total lactate dehydrogenase by 33.5% was detected, respectively, which is most likely due to the effects of the mineral supplement, which indicates a decrease in the level of damage to myocytes and hepatocytes.

An obvious effect of the method is that without violating the standard diet for industrial chicken flocks at the end of the productive period at the age of 480 days, without creating stress and using the ToxiNon feed additive in the indicated doses according to the proposed scheme, it is possible to significantly increase the egg production of industrial chicken flocks while increasing egg mass and normalization of egg mass, at a slight additional cost, which is accompanied by an increase in the efficiency of the poultry farm and the industrial (commercial n) poultry farming using intensive crosses in general.

Economic efficiency - an indicator necessary to assess the effectiveness of an enterprise or the use of new types of feed in order to assess profitability. In this case, the efficiency of using the toxiNon feed additive was calculated when feeding laying hens of an industrial herd in the second phase of productivity.

The results of calculating the economic efficiency of the proposed method are presented in table 6.

From the data of table 6 it follows that the increase in productivity occurred despite the same feed consumption due to the use of the feed supplement ToxiNon. Feed conversion was lower in the new version. In monetary terms, this amounted to 1.5 rubles. on 1 head.

The use of ToxiNon feed additives increased the profit for egg production during the test period by 180 pieces for every 100 heads of laying hens.

Thus, the toxiNon feed additive at the industrial herd of laying hens at the end of the productive period by the proposed method is effective and can be recommended for use in poultry farms and farms in the production of marketable eggs.

Claims (2)

1. The method of feeding industrial laying hens at the end of the production period, including the introduction of a feed additive in the main diet, characterized in that during the period of a natural decrease in egg laying, at the end of the production period at the age of 480 days, additional toxinon feed additive is added to the main diet of laying hens of the industrial herd in the amount of 13% per 1 ton of feed for 10 days daily. 2. The method of feeding the laying hens of an industrial herd according to claim 1, characterized in that in the process of feeding they use Toxinone produced by BentIzol LLC, Kurgan, while the additive is used in dry form, introduced into the feed by mixing.

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