RU2503250C2 - Method for growing parental flock egg-laying hens - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to the field of agriculture and may be used in poultry industry and at small farming enterprises during feeding farm birds, in particular - intensive crosses rearing stock. The method for growing parental flock egg-laying hens involves introduction of HydroLactiV probiotic fodder additive into the ration, the additive introduced to feedstuff from 10 day age and to the 21^st day of the bird's development. HydroLactiV is introduced in a dry form in an amount of 0.7% of the weight of feedstuff prepared as per PK-2 recipe.

EFFECT: invention implementation ensures increase of parental flock hens egg-laying capacity and increased yield of hatchable eggs due to early stimulation of chicken microflora as well as higher profitability of intensive crosses chicken growing.

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Description

The invention relates to the field of agriculture and can be used in industrial poultry and in farms when feeding agricultural poultry, in particular repair young stocks of hens of intensive crosses.

It is known that the characteristic features of poultry industrial production are extremely high density, which leads to a constant immunosuppressive, in fact, substandard state of the immune system, gastrointestinal diseases of bacterial origin, are one of the main reasons for the decrease in the viability of young animals and the productivity of adult birds. Particularly susceptible to various stresses is a highly productive bird, characterized by a high level of metabolism, requiring a clear balance of feed.

To solve the problem of feed balance, prevention of gastrointestinal diseases of young and adult birds, the principle of "complementary action of feed" is often used. The use of special feed additives that stimulate digestion and microflora.

It is known to use probiotics, in particular, lactoamilovorin, created at VNIIIFBiP, containing lactobacilli (Lactobacillus amilovorus strain, BT 24/88) isolated from the chyme of the cecum of piglets introduced in the first 7 days of growing to stimulate the growth of chickens and increase their safety. (SM Yegorov I. et al. Probiotic lactoamilovarin stimulates the growth of chickens. // Poultry farming, No. 8, 2004, p. 32-33).

With good results, the use of the drug at an early age in poultry rearing, the aftereffect of the drug on the egg production of chickens and the quality of the obtained egg has not been studied.

The use of the probiotic Vetom 1.1 is also known. when growing chickens and hens.

Vetom 1.1. is an immobilized dried spore biomass of bacteria Bacillius subtilis, strain VKPM-7092 producing interferon.

For the correction of immunodeficiency Vetom 1.1. prescribed to animals at a dose of 50 mg / kg weight 1-2 times a day for 5 days. (See the Manual on the use of Vetom 1.1. In veterinary medicine. All-Russian Research Institute for Control, Standardization and Certification of Veterinary Medicines. NPF Research Center (Novosibirsk), NPF Agrobiomed, Borovsk. Registration number of the TAC preparation is 2.04: 0394 -97).

With good results over many years of use of this drug. Its disadvantage is a one-sided action, like a probiotic that does not affect the quality of the obtained egg.

The objective of the invention is to develop a method for growing hens of laying hens of the parent herd, allowing early stimulation of microflora in chickens to comprehensively increase the egg production of hens of the parent herd with an increased yield of the hatching egg with a final increase in profit and income from raising chickens of intensive crosses using domestic probiotics with additional corrective properties on the quality of the egg.

The problem is solved in that during the growing period the repair young growth of laying hens is introduced into the feed “HydroLactiv” from 10 days to 21 days of development, while “HydroLactiv” is administered in a dry form at a dose of 0.7% by weight of the feed prepared according to the recipe PK-2.

The method is as follows. Repair young juveniles of laying hens from the age of 10 days are fed a feed mixture prepared according to the recipe PK-2 with HydroLactiV for 11 days.

HydroLactiV feed additive at a dose of 0.7% by weight of the feed prepared according to the PK-2 formulation practically does not violate the physical properties of the feed (density, viscosity, flowability) and does not change the feeding processes in the buildings with the adopted feeding system, without causing any undesirable reactions in chickens actively eating such food.

The feed additive used in the method is made on the basis of whey by thickening. It contains whey protein, oligopeptides and free amino acids, lactates, polysaccharides, micro and macro elements, vitamins, enzymes and other biologically active substances. Moreover, it practically does not contain indigestible lactose. (See "HydroLactiV" - a highly effective natural feed additive of domestic production for broilers. Www.Lactiv.ru).

The source of easily assimilated calcium in the preparation is calcium lactate - an organic compound - the calcium salt of lactic acid. Calcium lactate does not irritate the lining of the stomach, does not increase the pH of the chyme, as it has a neutral reaction, is easily assimilated by the body, and helps to generate energy during digestion.

The purpose of scientific and industrial research is to study the effect of the feed additive "HydroLactiV" on the growth and development of young animals, egg production, vitality and reproductive qualities of laying hens of the parent flock of the Highsex Brown cross.

After conducting a literature search, laboratory studies and theoretical justification of the doses and periods of introduction of the proposed feed additive - probiotic in the feed for repairing young animals, taking into account the peculiarities of the development of intensive cross chickens, search and scientific-production experiments were carried out to practically confirm the proposed method.

The novelty of the method is that the well-known probiotic preparation "HydroLactiv" is used for a new purpose, by introducing repair young stock of the parent herd in a given dose of 0.7% of the feed mass in the indicated period of growth of the chickens.

The non-obvious effect of the method is that without violating the standard diet for the repair of young stocks, and using only the HydroLactiv feed additive in the specified dose and according to the proposed scheme, the egg production of the hens of the parent herd significantly increases, with insignificant additional costs, with an increase in the efficiency of the poultry farm and industry intensive poultry industry in general.

The experimental part of the work was performed in the period 2010-2012 in the production conditions of OJSC Sverdlovsk PPP. The object of the study was repair young animals, chickens of the parent herd of the line of diabetes, cross Highsex Brown. For the experiments, the control and experimental groups of daily chickens were formed with 84 goals each. In the control group, “Vetom 1.1.” Is introduced to the chickens according to the technology that is pleasant at OJSC Sverdlovsk PPP.

The formation of groups of experimental birds, as well as the scientific basis of the study was carried out in accordance with the recommended methods VNITIP. Feeding the bird, as well as its content, was carried out in accordance with the recommendations developed at the enterprise for this cross-country of birds. Studies were performed according to the experimental design (Table No. 1).

Tables No. 1 Experience outline Groups Diet Control General diet (Vetom 1.1., 0.5 mg / goal per day with water from 10 to 21 days of life) Experienced OR + (HydroLactiV, 0.7% of the mass of feed from 10 to 21 days of life)

During the experiments, the following was taken into account and determined: the safety of the livestock — by daily accounting for the dead bird for the entire period of rearing; live weight of the bird - by weighing at the daily age of 10, 22, 98, 189; daytime age; feed intake, during the experiments, daily, according to the difference between the specified amount and uneaten residues; digestibility and use of nutrients of the diet - carrying out balance experiments at the age of 112 on 3 hens from each group according to the methodological recommendations of VNITIP-2010.

Blood for biochemical, general, immunological studies was taken from the axal vein of five chickens at the age of 98 days.

The egg productivity of laying hens was determined by daily counting of laid eggs.

Morphological and chemical analysis of the eggs was carried out according to generally accepted methods.

The chemical composition of feed, litter in the balance experiment was determined in the analytical laboratory of the Ural Research Institute of Agriculture, Yekaterinburg.

In studies, as a feed, a multicomponent feed mixture was used, the chemical composition of which, depending on the period of feeding, changed. So, 100 g of feed mixture contained: exchange energy from 291-261 kcal, crude protein 20.06-13.5%, crude fiber 4.62-3.33%, calcium 1.34-1.2%, phosphorus 0 , 79-0.71%.

When conducting scientific and production experiments, repair young animals and further, laying hens were fed with dry full-feed mixed in accordance with the “Recommendations for feeding poultry” (VNITIP, 2010), the grain basis of which was wheat (42.9-70.86% ), and protein ingredients are represented by soybean meal (10-19%). The composition and nutritional value of the feed by feeding periods is presented in table No. 2.

Feeding the experimental livestock was four-phase, depending on the growing period:

Phase 1 - feeding at the age of 0-5 weeks - with compound feed prepared according to the recipe PK-2 (Table No. 2).

Table number 2 Composition and nutritional value of the feed mixture for the repair of young chickens Component Units rev. Feeding period, weeks Starting 0-5 weeks. life (PK-2) Growth 5-8 weeks. life (PK-3) Development 9-15 weeks. life (PK-4) Wheat % 42.98 65.17 70.86 Barley % 0 11.0 15.0 Corn % 25.28 0 0 Soybean meal % 19.69 10.5 0 Sunflower meal % 0 5,0 8.0 Corn gluten % 3.0 0 0 Fish meal % 4.0 3.0 1,5 Sunflower oil % 0.75 1,0 0 Lysine Monochlorohydrate % 0.18 0.18 0.37 Methionine % 0.12 0.1 0.23 Common salt % 0.27 0.34 0.37 Defluorized Feed Phosphate % 1.45 2.1 2.0 Limestone flour % 1.27 1,1 1.3 Xibetenxil % 0.0075 0.0075 0 P2 №3 Natufos % 1,0 0 0 Natufos % 0 0 0.0050 67-640 No. 101 % 0 0.5 0.5 100 g contains:
Exchange energy kcal 291 277 261 Lysine % 1,11 0.88 0.73 Methionine % 0.46 0.37 0.35 Methionine + Cystine % 0.76 0.63 0.57 Threonine % 0.70 0 0.42 Tryptophan % 0.23 0 0.18 Arginine % 1.12 0 0.69 Crude protein % 20.06 17.0 13.5 Crude fiber % 3.33 4.12 4.62 Crude fat % 3.20 2.75 1.71 Linoleic acid % 1.51 1.46 0.91 Ca % 1,2 1.26 1.34 P % 0.74 0.71 0.79 P digestible % 0.48 0.47 0.52 Na % 0.16 0.18 0.16 Cl % 0.26 0 0.33 NaCl % 0.42 0.46 0.41

2 phase - feeding at the age of 5-8 weeks - with compound feed prepared according to the recipe PK-3.

- Phase 3 - feeding at the age of 9-15 weeks - with compound feed prepared according to the recipe PK-4.

- 4 phase - feeding at the age of 16-42 weeks - with compound feed prepared according to the recipe PK-1-1 P-1793

Compound feeds were prepared at SKKHP OJSC

The energy-protein ratio was within the limits of feeding norms: in the first phase of cultivation, 150, the second phase - 175, the third - 198, the fourth - 161.

The calcium-phosphorus ratio in the growing phase was 1.62-1.77, respectively, which also meets the nutritional standards. At the same time, the deficiency of calcium and phosphorus was eliminated by the addition of phosphate, limestone flour.

The lack of exchange energy in the diets of poultry of both groups was compensated by adding sunflower oil.

The imbalance of “limiting” essential amino acids was eliminated by the addition of synthetic preparations of lysine and methionine (lysine monochlorohydrate, DL-methionine). The ratio of lysine to methionine + cystine in all phases of feeding (1.4) corresponded to physiological norms. The required amount of trace elements and vitamins was provided by the introduction of biologically active substances in compound feed, which included (per 1 kg) vitamins and trace elements.

Based on the analysis of the composition and nutritional value of compound feeds for repairing young animals, laying hens, it was found that their energy and nutrient requirements were provided within the existing feeding standards.

In order to study the nature of the course of metabolic processes in the body of the experimental bird, experiments were carried out on digestibility of feed and balance of nutrients.

As a result of the digestibility analysis of feed nutrients, it should be noted that the introduction of the HydroLactiV feed additive for a new purpose has a positive effect on the absorption of feed nutrients.

An additional feed factor, in the form of the HydroLactiV additive studied in the experiment, had a definite effect on the digestibility of feed nutrients (Table 3). Thus, the digestibility of protein at the age of 98 days was 1.0% higher, fiber 4%, ash 13%, BEV 1%, in the experimental bird, which received the HydroLactiv feed additive along with the main diet, compared to with a control group.

Table number 3 Digestibility ratios of nutrients of poultry feed,% Indicator Group Control Experienced Protein 93% 94% Fat 87% 87% Cellulose 29% 33% Bev 88% 89%

The use of nitrogen, calcium, phosphorus of the experimental group exceeded the control, respectively, by 4; fifteen; 8% (Table No. 4).

Table number 4 Exchange of nitrogen, ash and minerals,% Indicator Group Control Experienced Ash 45% 58% Nitrogen 64% 68% Ca 48% 63% P 54% 62%

Table number 5 The nitrogen balance of the experimental bird, g / goal / day Indicator Group Control Experienced Taken with food 1,6 1,5 Highlighted in a litter 0.57 0.48 Delayed 1,03 1,02 Used from accepted,% 64% 68%

According to the results of studies, it is noted that consumption in the early period of development of chickens of the experimental group of feed containing the feed additive "HydroLactiv" further increased the efficiency of nitrogen use. The difference in this indicator compared to the first group was 4% (Table No. 5).

The stability of the chemical composition is one of the most important and indispensable conditions for the functioning of the body.

Based on this, in the course of studies at the age of 98 days, a balance experiment was conducted to evaluate the exchange of calcium and phosphorus in the body of experimental chickens (Tables No. 6, No. 7).

Table number 6 The calcium balance of the experimental bird, g / goal / day Indicator Group Control Experienced Taken with food 1.4 1.37 Highlighted in a litter 0.72 0.5 Delayed 0.68 0.87 Used,% 48 63

The research results showed that a particularly high absorption of calcium by the bird was observed in the experimental group of 0.87 g / goal / day, which is higher than 0.19 grams in repair young animals of the control group. The factor of feeding the feed additive “HydroLactiV” containing the organic form of calcium - calcium lactate, characterized by the best absorption, had the assimilation of calcium in the repair of young animals. Individuals in the experimental group used it more efficiently from the accepted one (63%).

According to the results of the experiment, it was also found that the balance of phosphorus in the experimental bird of both groups was positive, and higher use was observed in the birds of the experimental group 62%, which is higher than in the control group by 8% (Table No. 7).

Table number 7 The phosphorus balance of the experimental bird, g / goal. / Day Indicator Group Control Experienced Taken with food 0.33 0.32 Highlighted in a litter 0.15 0.12 Delayed 0.18 0.2 Used,% 54 62

At the daily age in all groups, the live weight of the hens was almost the same in the groups and averaged 38 ± 0.5 g. in the control group and 37.8 ± 0.2 g. in the experimental group (Table No. 8).

The inclusion of the feed additive “HydroLactiV” had a positive impact on the growth and development of the repair young growth of Highsex Brown cross-country poultry. So, at 22 days of age, the chickens fed the HydroLactiV feed additive exceeded the live weight of the analogues of the control group by 20%, and when the young animals were transferred to the parent flock (98 days old), this indicator in the experimental group of hens was 13% ahead of the control .

Table number 8 Live weight of young repair hens of laying hens of the parent flock of cross Highsex Brown Indicators Control group Experienced group Daily live weight 38 ± 0.5 37.8 ± 0.2 Live weight at the age of 22 days 105 ± 2.47 128 ± 5.19 Live weight 98 days. 1.165 ± 1.4 1.186 ± 1.2 Uniformity in live weight of 98 days 70% 75%

An important role in the cultivation of modern poultry crosses is played by the uniformity of livestock by live weight. It is especially important when growing rearing young animals, since only a uniform bird is highly preserved, has better growth and development, which provides the same qualities to an adult livestock. The uniformity of the chickens of the experimental group in live weight was 75%, which is 5% higher than in the control group of birds.

Thus, the inclusion of the feed additive "HydroLactiv" had a positive effect on the growth, development and uniformity of young animals in the experimental group.

The study of the blood composition of laying hens is an important part of scientific research, since it reflects physiological processes and is one of the sensitive indicators of changes in the body.

During the experiment, at the age of 98 days, blood samples were taken from repair young animals.

The immune status of birds was assessed by the level of circulating immune complexes (CEC) (Table 9).

Table number 9 Characterization of nonspecific immunity of repair young animals at the age of 14 weeks. Indicator Age Group Control Experienced CEC, conv. units 14 weeks 20 ± 2,36 10 ± 1.54

The formation of immune complexes is one of the protective reactions of the body, with the help of which the fight against antigens and microorganisms is carried out. In birds experiencing significant antigenic and xenobiotic load, as a rule, an increased level of circulating immune complexes (CIC) in the blood serum is recorded. The experiment found that the inclusion of "HydroLactiVA" for a new purpose in the diet of chickens from 10 days to 21 days leads to a decrease in the level of CEC in the experimental group at the age of 14 weeks, by half. A decrease in this indicator in the blood of experimental chickens indicates a positive immunoreactivity of their body (Table No. 9).

The dynamics of protein and mineral indicators of blood serum of repair young animals are presented in table No. 10.

Table number 10 Biochemical blood test repair young animals at the age of 14 weeks. Indicators Control group Experienced group Total protein g / l 55.98 ± 2.39 72.22 ± 1.56 Albumins g / l 23.28 ± 1.24 32.32 ± 2.84 Globulins g / l 32,7 39.9 Calcium mmol / L 2.45 ± 0.96 3.41 ± 0.27 Phosphorus mmol / L 1.8 ± 0.1 2.37 ± 0.08

An analysis of the dynamics of the protein parameters of blood serum showed that the total protein content is within the physiological norm, but this indicator is 29% higher in the experimental group, this is consistent with an increase in the growth rate of birds using HydroLactiV (Table 10).

The concentration of total protein in serum depends mainly on the synthesis and breakdown of two main protein fractions - albumin and globulin, which play a large role in the transport of nutrients. An increase in albumin indicates a positive increase in the functional activity of the liver.

As a result of the studies, it was found that the amount of albumin in the chickens of the experimental groups at the age of 14 weeks was not the same, and there was a tendency to increase in the experimental group by 9.04%. With respect to globulins, an increase in the experimental group of 7.2% was noted.

In the case of the ratio of albumin to globulin at the age of 14 weeks, respectively 0.8; 0.70; in the control and experimental groups.

When studying metabolism, one cannot ignore the state of mineral metabolism, since many mineral elements participate in the activation of enzymes, membrane permeability, bone mineralization, osteosynthesis, regeneration processes, the body's energy supply, etc. imbalance of mineral elements leads to metabolic disorders.

As a result of studies, it was found that the level of calcium in the blood of repair young animals receiving HydroLactiV was higher in comparison with the control group by 0.98%.

The phosphorus content in the blood of repair young animals was within the physiological norm, however, an increase of this indicator in the second group by 0.57% was observed.

As a result of studies, it was found that the content of calcium and phosphorus in the blood serum was within the permissible limits of physiological norms, and no significant changes in the level of their concentration between the groups were noted.

Comparison of the control and experimental groups according to productive indicators indicates a positive effect on the egg production of chickens of the complex feed additive "HydroLactiV" introduced by the proposed method.

The use of a feed additive contributed to an intensive increase in egg production in the initial period of productivity, earlier reaching its peak (Table No. 11).

In the experimental group, in comparison with the control group, the first egg appeared 5 days earlier and 5–25–50% oviposition was achieved faster. In particular, the hens of the experimental group 7 days earlier reached 50% of the level of egg production. The maximum level of productivity (96%) was achieved in the second experimental group at the age of 27 weeks; in the experimental group, the maximum level of productivity (93%) was established at the age of 28 weeks.

Studies have confirmed the positive effect of the feed additive "HydroLactiV" on the productive indicators of laying hens (Table No. 11).

Table number 11 Highsex Brown cross hens productivity characteristics Indicators Control group Experienced group Egg production for 42 weeks of life per initial laying hen, pcs. 139 143 Gross Egg Harvest 11,693 11,980 The amount of egg mass for 42 weeks of life, kg 8.1 8.5 The age of the chickens when they are laid, weeks 50% 22 21 peak 28 27 Oviposition peak,% 93 96 Percentage of Productivity by Age: 26 weeks 90 94 30 weeks 93 95 42 weeks 89 90 The average egg mass in chickens will increase 30 weeks 56.5 ± 1.16 57.5 ± 1.075 42 weeks 57.8 ± 0.26 59.9 ± 0.59 Shell thickness, mm 30 weeks 0.372 ± 0.0017 0.382 ± 0.003 42 weeks 0.370 ± 0.002 0.375 ± 0.002 Feed costs per 10 eggs 1.3 1,2 The safety of the bird, up to 16 weeks,% one hundred one hundred From 17-42 weeks of life 99 99

It was found that the hens of the experimental group during the experiment differed from the control by higher productivity by an average of 3%.

In total, for the period of the experiment (42 weeks), 143 pieces were obtained for the initial layer in the experimental group. eggs, in the control - 139 pcs., the difference was 2%.

Analyzing the results obtained, we can say that laying hens of the experimental group were more able to maintain high egg production after reaching its peak. The use of feed additives contributed to an intensive increase in egg production in the initial period of productivity, earlier reaching its peak. The biological nature of this indicator is associated with the high mobilization of all systems and organs of the bird, as well as the presence in the body of an easily used supply of nutrients.

It was found that the hens of the experimental group during the experiment differed from the control by higher productivity by an average of 3%.

In total, for the period of the experiment (42 weeks), 143 pieces were obtained for the initial layer in the experimental group. eggs, in the control - 139 pcs., the difference was 2%.

Analyzing the results obtained, we can say that laying hens of the experimental group were more able to maintain high egg production after reaching its peak. The use of feed additives contributed to an intensive increase in egg production in the initial period of productivity, earlier reaching its peak. The biological nature of this indicator is associated with the high mobilization of all systems and organs of the bird, as well as the presence in the body of an easily used supply of nutrients.

Over the period of the experiment, the feed consumption per 1 head per day was the same in all groups, due to the fact that the bird was fed at the recommended daily allowance. However, due to higher egg production, the lowest feed consumption per 10 eggs for a period of 42 weeks was in the experimental group of 1.2 ked. against 1.3 kf in control.

At the same time, there is a tendency to increase such important indicators as egg mass, egg shell thickness, and the content of vitamins A, B and carotenoids.

It can be assumed that the increase in these indicators is due to the versatile effect of the feed additive "HydroLactiV" introduced by the proposed method on the body of repair young animals.

Thus, the introduction of the complex preparation “HydroLactiv” in the diet of chickens of the cross breed “Highsex Brown” can significantly stimulate the directed rearing of young stocks, which further ensures the high, genetically determined productivity of laying hens of the parent herd.

In studies, the financial result in calculating profits is expressed through such technological indicators: as the value of the increase in hatching egg production, feed consumption, the cost of feed additives, the cost of production and its realized price (Table No. 12).

Table number 12 Economic efficiency of using HydroLactiVa Indicators Control group Experienced group Total number of goals 84 84 Received hatching eggs, pcs. 11697 11980 Feed consumption per head, unit 1.3 1,2 The cost of the drug, rubles / kg Vetom 1.1. - 1150 HydroLactiv - 150 Total cost of livestock, rubles 4.83 17.70 The cost of 1 pc. hatching eggs, rub. 38 38 Cost of 1 pc. eggs, rubles 5.5 5.5 Revenue RUB 444,486.0 455,240.0 Profit RUB 380152.5 389,350.0 Net profit, RUB 64,328.67 65872.30

Thus, the use of HydroLactiVa in the production of hatching eggs is economically viable. Net profit amounted to 65872.30 rubles, which is higher than in the control group by 1543.63 rubles.

As a result of comprehensive studies on the proposed method, the feasibility of using the feed additive "HydroLactiV" in the feeding of laying hens of the parent flock of cross "Highsex Brown" in the period from 10 to 21 days of life according to the proposed method.

The use of feed additives "HydroLactiV" for a new purpose:

1. It has a positive effect on the growth and development of young animals.

2. Promotes increased digestibility and assimilation of nutrients of the feed by the bird.

3. It contributes to an increase in the natural resistance and immunological reactivity of chickens, which determined their high growth rate, vitality and physiological readiness for egg laying.

4. Allows you to increase the egg productivity of poultry by an average of 3%.

5. Increases the income from the sale of a breeding egg by 1543.63 rubles. The proposed method for growing laying hens of the parent herd can be recommended for widespread adoption in industrial poultry farming.

Claims (1)

A method of growing hens of the parent herd, including the introduction of a probiotic feed additive into the diet, characterized in that, as a probiotic feed additive, the feed additive “HydroLactiV” is introduced from 10 days of age to 21 days of development, while “HydroLactiV” is administered in dry form at a dose of 0.7% by weight of feed prepared according to the recipe PK-2.