RU2162287C1 - Feeding additive for farm animals and poultry - Google Patents

Abstract

FIELD: agriculture, particularly, animal husbandry and poultry farming. SUBSTANCE: protein-vitamin-mineral feeding additive contains protein components, vitamins and also chelated composition of citric acid - citrates of zinc, iron, copper, manganese, cobalt, mycelium of citric acid, amino acids, and succinic acid. Using of feeding additive enables increasing of intensity of pigs growth when fattening by 11.9-14.0%; intensity of egg production of laying hens, by 10.5%; fodder reduction of expenditures for pigs accretion and egg production of laying hens by 1.7-14.2%; increased content of vitamins A and C in liver and meat by 11.5-15.0%; reduced level of toxic elements (cadmium and plumber) in liver by 11.5 and 21.8%. EFFECT: higher efficiency. 7 tbl

Description

 The invention relates to agriculture, in particular to the feeding of farm animals and poultry.

 Known feed additives containing vitamins, amino acids, as well as trace elements, which are traditionally used in inorganic form in the form of sulfate, chloride or carbonic salts. The use of these feed additives provides complete feeding and growing of piglets by 4 months of age with a live weight of 43-45 kg while reducing feed costs by 16-21% (1).

 Closest to the invention is a feed additive containing in its composition salts of iron, zinc, cobalt, manganese and copper, potassium iodide, sodium selenite. The use of such an additive increases the average daily gain in live weight of animals (2).

 The disadvantage of this feed additive is the high cost of its production, while the cost of citric acid for the production of citrates is much cheaper.

 A common drawback of known feed additives is the lack of optimal doses of trace elements due to the low content of vital trace elements in plants, soil and water, such as zinc, manganese, cobalt, iodine. In addition, they are used in inorganic form in diets and feed additives. The digestibility of trace elements in inorganic form is low in animals and birds, which is why their dosages in the diets are often increased 1.5-2 times higher than the established standards, which causes toxicosis in animals and birds and reduces their preservation, especially young animals. All this increases the cost of known feed additives and they are often not economically justified.

The objective of the invention is to increase the productivity and preservation of livestock of animals and birds, reduce feed costs for products, improve product quality. This goal is achieved in that the feed additive for farm animals and poultry containing potassium iodide, sodium selenite, salts of iron, zinc, cobalt, manganese and copper, characterized in that it contains salts of iron, zinc, cobalt, manganese and copper iron citrate, zinc citrate, cobalt citrate, manganese citrate, copper citrate and it additionally contains soybean meal, sunflower meal, fish meal, meat and bone meal, fodder yeast, citric acid mycelium, as well as vitamins A, D ₃ , E as protein components , B ₁ , B ₂ , B ₃ , B ₄ , B ₅ , B ₁₂ ascorbic acid, succinic acid, lysine, methionine and defluorinated phosphate in the following ratio, wt.%:
Soybean meal - 10.0 - 14.0
Fishmeal - 10.0 - 20.0
Meat and bone meal - 12.0 - 16.0
Fodder Yeast - 14.0 - 16.0
Mycelium of citric acid - 5.0 - 10.0
Iron citrate - 0.1 - 0.3
Zinc Citrate - 0.2 - 0.7
Cobalt Citrate - 0.02 - 0.05
Manganese Citrate - 0.4 - 0.7
Copper citrate - 0.03 - 0.07
Potassium iodide - 0.07 - 0.07
Sodium Selenite - 0.001 - 0.001
Vitamins:
A - 0.15 - 0.2
D ₃ - 0.015 - 0.04
E - 0.1 - 0.05
B ₁ - 0.02 - 0.04
B ₂ - 0,038 - 0,05
B ₃ - 0.1 - 0.03
B ₄ - 2.5 - 4.0
B ₅ - 0.2 - 0.3
B ₁₂ - 0.0003 - 0.0004
Ascorbic acid - 0.3 - 0.5
Succinic acid - 0.22 - 0.22
Lysine - 0.3 - 0.4
Methionine - 0.14 - 0.16
Defluorinated Phosphate - 2.0 - 2.0
Sunflower meal - Else
The novelty of the proposed feed additive is that in order to increase the productivity and safety of the livestock, reduce feed costs for growth and improve product quality, citric acid salts (citrates) - iron citrate, zinc citrate, cobalt citrate, are introduced into the composition of the feed additive as biogenic preparations manganese citrate, copper citrate and succinic acid.

 Examples of specific performance.

 To confirm the effectiveness of this feed additive for farm animals and poultry, studies were carried out at the Ptichnoye poultry farm of the Prokhorovsky district and the feed farm pig farm of the Frunze collective farm in the Belgorod region of the Belgorod region. Experimental data on the use of the proposed feed additive were obtained in experiments on 4 groups of laying hens on a total livestock of 544 heads of 136 animals in a group and on 3 groups of young pigs for fattening on a livestock of 37 animals of 12-13 animals in a group. The main rations of the control and experimental groups included standard compound feeds for laying hens PK 1-2, for young pigs fattening K 52-2. The main components of standard compound feeds were barley, wheat, peas, and corn.

For the animals and poultry of the I (control) group, the main diet was fed throughout the entire period with the introduction of a feed additive in the amount of 15% of the main diet of the following composition, wt.%: Sunflower meal - 46.62; soybean meal - 10; fish meal - 10.0; meat and bone meal - 12.0; feed yeast - 14.0; defluorinated phosphate - 2.0; vitamin A - 0.15; D ₃ - 0.015; E is 0.1; B ₁ - 0.02; B ₂ - 0.038; B ₃ is 0.1; B ₄ - 2.5; B ₅ - 0.2; B ₁₂ - 0,0003; ascorbic acid - 0.3; lysine - 0.3; methionine - 0.14; selenium - 0.001; potassium iodide - 0.07; zinc sulfate - 0.7; manganese sulfate - 0.5; iron sulfate - 0.2; copper sulfate - 0.025; cobalt carbon dioxide - 0.02.

Bird II of the experimental group was fed throughout the experiment the main diet with the introduction of 8% of the proposed feed additives of the following composition, wt. %: sunflower meal - 42.85; soybean meal - 10.0; fish meal - 10.0; meat and bone meal - 12.0; mycelium of citric acid - 5.0; feed yeast - 14.0; defluorinated phosphate - 2.0; vitamin A - 0.15; D ₃ - 0.015; E is 0.1; B ₁ - 0.02: B ₂ - 0.038; B ₃ is 0.1; B ₄ - 2.5; B ₅ - 0.2; B ₁₂ - 0,0003; succinic acid - 0.22; lysine - 0.3; methionine - 0.14; selenium - 0.001; potassium iodide - 0.07; zinc citrate - 0.2; manganese citrate - 0.4; iron citrate - 0.1; copper citrate - 0.03; cobalt citrate - 0.02. Young fattening pigs were injected with 10% of the same feed supplement. The experimental bird of the III experimental group was fed the main diet with the introduction of 12% of the main diet of the proposed feed additives of the following composition, wt.%: Sunflower meal - 27.38; soybean meal - 12.0; fish meal - 15.0; meat and bone meal - 14.0; mycelium of citric acid - 7.5; feed yeast - 16.0; defluorinated phosphate - 2.0; Vitamin A - 0.17; D ₃ is 0.3; E is 0.025; B ₁ - 0.03; B ₂ - 0.04; B ₃ - 0.15; B ₄ - 3.0; B ₅ - 0.25; B ₁₂ - 0,00035; ascorbic acid - 0.4; succinic acid - 0.22; lysine - 0.35; methionine - 0.15; selenium - 0.001; potassium iodide - 0.07; zinc citrate - 0.4; manganese citrate - 0.6; iron citrate - 0.2; copper citrate - 0.045; cobalt citrate - 0.03. Young pigs for fattening of the III experimental group were injected with 15% of the main diet of the same feed supplement.

Bird IV of the experimental group was fed during the experiment, the main diet with the introduction of 15% of the proposed feed additives from the main diet of the following composition, wt. %: sunflower meal - 11.85; soybean meal - 14.0; fish meal - 20.0; meat and bone meal - 16.0; mycelium of citric acid - 10.0; feed yeast - 0.18; defluorinated phosphate - 2.0; vitamin A - 0.20; D ₃ - 0.04; E is 0.05, B ₁ is 0.04; B ₂ - 0.05; B ₃ - 0.03; B ₄ - 4.0; B ₅ is 0.3; B ₁₂ - 0,0004; ascorbic acid - 0.5; succinic acid - 0.22, lysine - 0.4; methionine - 0.16; selenium - 0.001; potassium iodide - 0.07; zinc citrate - 0.7; manganese citrate - 0.7; iron citrate - 0.3; copper citrate - 0.07; cobalt citrate - 0.05.

 The use of citric acid salts - iron citrate, zinc citrate, manganese citrate, cobalt citrate, copper citrate, soybean meal, fish and meat and bone meal, fodder yeast and citric acid mycelium in the composition of the feed additive helps to increase the productivity of animals and birds, their safety, reduce costs feed for products, improves its quality (tables 1-7).

 An analysis of the results of studies on laying hens (experiment 1) showed that the introduction of the proposed feed additive in the amount of 8% of the main diet into the composition of the main diet of the experimental group II had a positive effect on the safety and egg laying of the bird, and feed costs. Thus, the safety of poultry increased by 0.8%, and the egg production rate of laying hens increased by 2.7% against the control group. The use of a feed additive containing micronutrient citrates and succinic acid had an impact on reducing feed costs in egg production, feed costs in the experimental group II decreased by 4% per 10 eggs compared to the control group (table 1).

 Feeding a feed additive to poultry of the III experimental group in the amount of 12% of the diet weight also contributed to an increase in the egg production rate of laying hens by 1.42%, an increase in the safety of poultry by 3.7%, the cost of feed per 10 eggs was lower by 1 , 7%.

 The IV test group of laying hens, receiving a feed additive in the amount of 15% of the diet weight, was characterized by the highest egg production and the safety of the livestock. The egg production rate of laying hens in this group was 86.3%, and the safety of the livestock was 99.3%, which is higher than in the birds of the control group by 10.5 and 4.5%, respectively.

 The cost of feed for the production of 10 eggs was the lowest and amounted to 1.56 coal units, which is 12.4% lower than in birds of the control group (table 1).

 The high egg production rate and the safety of the bird are explained by the best use of citric acid salts (citrates) in the form of chelating compounds.

 Minerals used in organic form are better absorbed in animals and birds and do not cause toxicosis than the same elements used in inorganic form. In addition, succinic acid, introduced into the composition of the feed additive, plays a role in the body of animals and birds of the biological immunomodulator, which has a positive effect on the safety of the livestock.

 Chemical and biological analyzes of the liver and pectoral muscle showed that the vitamin value of these organs was higher in the experimental groups. So, citric acid salts - citrates in the composition of the feed additive helped to increase the vitamin value of the liver and pectoral muscle of laying hens, since the content of vitamin A in the liver of poultry of the II experimental group increased by 25.5%, the experimental III - 7.8% and the IV experimental 11 , 5%, respectively, of vitamin C is higher in experimental II - by 4.5; Experienced III - 6.9 and experimental IV - 10.1%. A similar dependence is also observed in the pectoral muscle of the bird. So the vitamin A content in the II experimental group was higher by 29.2%, in the III experimental group - 41.4 and IV - by 36%. Vitamin C, respectively, in the II experimental group is higher by 8%, III - 23% and IV - 15.1% compared with the control group (table 2).

 Citric acid salts (citrates) in the composition of the feed additive have the properties of a denitrifying substance. This is convincingly illustrated in Table 3, which shows the beneficial effect of citrates on the nitro-reducing system of the body, since a statistically significantly lower amount of nitrates and nitrites was found in the liver and pectoral muscle of laying hens of the experimental groups. So the nitrate content in the liver of laying hens of the II experimental group was less by 2.2; in III by 27.8 and in IV by 30.5% than in the control group, and nitrite, respectively, is lower in the II experimental group - by 12.5%, III - by 56.3% and IV - by 43.8% .

 The concentration of nitrates in the pectoral muscle of laying hens of the experimental groups was lower by 22.3-18.5% compared with the control (the differences are statistically significant - table 3), and nitrite, respectively, lower by 5.6 and 11.2%.

 A positive moment is the effect of citric acid salts (citrates) in the feed additive on the decrease in the blood, liver and pectoral muscle of laying hens of the experimental groups compared to the control compounds of heavy metals - copper, cadmium, lead, while the decrease was significant.

 Analysis of biochemical studies of blood, liver and pectoral muscle of laying hens showed that the feed additive has a pronounced sorption effect. This is clearly seen from the table. 4 and 5. In this case, the content of heavy metals in the blood of laying hens of all experimental groups was lower by 4.9%, respectively, of copper in the II experimental group, by 6.6% in the III and 14.8% in the III (P> 0 95), cadmium in II and III - 27.3 and IV - by 18.2%, lead in II - by 38%, III - by 24.2% and in IV - by 31.1% (the differences are statistically significant) (tab. 4).

 In the liver of laying hens of the experimental groups: a similar dependence is observed. So the copper content in the experimental II-IV groups were lower by 2.1-35.1%, cadmium by 2.9-11.5% and lead, respectively, lower by 21.8-4.5% compared with the control group. According to the content of heavy metals in the pectoral muscle of laying hens of the experimental groups, a similar dependence is traced. So the copper content in the II-IV experimental groups was 3.1-1.8% lower, cadmium 16.7-8.4% and lead 12.7-8.5% compared with the control group (cadmium differences are statistically significant).

 The high sorption ability of the feed additive is primarily due to the presence of mycelium in its composition containing chitin, which is the most sorbing substance, in addition, the citrates contained in the feed additive in the form of chelate compounds also have sorption ability.

 Increasing the vitamin value of the feed additive, reducing the experimental groups of nitrates, nitrites, salts of heavy elements in the organs and tissues of the bird, all this had a positive impact on the productivity and preservation of the bird, reducing feed costs, improving product quality, which ultimately affected economic indicators.

 The use of the feed additive was effective in all experimental groups, and the profit for this amounted to 2.16 rubles per 1 layer in the II experimental group, and 3.24 rubles in the experimental group. and experimental IV - 3.95 rubles.

 Studies on the effectiveness of the use of feed additives were carried out in a 2-economic experiment on young fattening pigs.

 Analysis of the research results showed that the use of the proposed feed additive in the diet for young pigs for fattening had a positive impact on productivity, feed costs and meat quality.

 The inclusion in the composition of the diet of young fattening pigs in the amount of 10% of the diet in the experimental group II increased the average daily gain in live weight, while the average daily weight gain was 611 g, which is higher than in the control group by 14% (or 75 g) . The use of citrates in the composition of the feed additive had a positive effect on feed costs for growth. So the cost of feed per 1 kg of growth was lower in the II experimental group by 14.3% or 0.75 feed. units than in the I control group (table 6).

 The introduction into the diet of 15% of the feed additive by weight of the diet for young fattening of the experimental group II increased the growth rate of animals by 11.9% (64 kg), while reducing the cost of feed 13.5% or 0.71 feed. units

 The high growth rate of animals in the experimental groups is confirmed by a higher content of vitamins and minerals in organs and tissues.

 The control slaughter of animals showed that in most of the studied indicators, animals of the II and III experimental groups exceeded peers from the control. At the same time, a general pattern was revealed - the content of microelements in the organs and tissues of animals of the experimental groups that received microelements in the composition of the feed additive in the form of citrates was higher in all studied organs and tissues, and the level of toxic elements decreased on the contrary (table 7). So the content of iron, manganese and zinc in the longest muscle was higher in animals of the 2nd experimental group by 18.5; 8.8 and 12.2% and 3 experimental groups by 20.6; 5.7 and 12.7% compared with the control group.

 At the same time, the content of toxic elements, such as cadmium and lead, decreased in the 2nd experimental group by 12.5 and 5.4% and in the 3rd experimental group, respectively, by 25.0 and 10.2% compared with the control group. A similar dependence is also traced by the deposition of trace elements in the liver, the content of which in the experimental groups was higher than in the control. So the content of iron, manganese, zinc, copper, iodine was higher in the 2nd experimental group by 10.4; 10.0; 7.46; 4.3 and 25% and 3 experimental respectively 13.5; 14.5; 7.74; 5.5; 37.5. At the same time, the level of cadmium and lead in the liver of pigs of the 2nd experimental group was lower by 18.0 and 26.0% and the 3rd experimental group, respectively, lower by 31.3 and 37.2% (P> 0.95) than in the liver of animals of the control group with a significant difference (table 7).

 We associate the decrease in the level of toxic elements (cadmium and lead) with the presence of experimental groups of chitin-containing materials with sorption ability in the feed additive. According to the content of trace elements in the kidneys, a similar dependence was found, in animals of the experimental groups their level was higher than in the control, including toxic elements - cadmium and lead in the 2 experimental group by 6.21 and 5.1% and in the 3 experimental group by 9.3 and 8.6% respectively. Apparently toxic elements are excreted from the body to a greater extent by the kidneys.

 Analysis of the data on the deposition of vitamins in the longest muscle and liver showed that the content of vitamin A and C in the longest muscle was higher in the 2nd experimental group by 40.3 and 31.0% and in the 3rd experimental group by 35.0 and 28.6%, respectively and in the liver 2 of the experimental group of vitamin A and C are higher by 29.6 and 12.5% and 3 of the experimental group by 17.4 and 9.6% than in animals of the control group.

 Thus, from the above data it is seen that the use of the proposed feed additives in the composition of the main diet of poultry and pigs in the amount of 8; 10; 12 and 15% of the main diet, as well as the introduction of biogenic preparations in the form of chelating compounds in the form of chelate compounds in the form of iron citrate, zinc citrate, manganese citrate, copper citrate, cobalt citrate, increases the productivity of animals and poultry, and reduces the cost of feed for products , improve product quality (increase vitamins in meat and organs, significantly reduce the toxic elements of cadmium and lead in meat and liver), has a denitrifying effect, reduces the content of nitrates and nitrites in meat and organs, ovyshaet economic performance of the feed additive.

 Technical and economic efficiency.

 Analysis of economic indicators indicates that the use of the proposed feed additive in the composition of the main diet for farm animals and poultry in the amount of 8; 10; 12 and 15% of the main diet contributes to an additional increase in live weight, increase egg production, reduce feed costs per unit of production.

 The profit from the use of feed additives in the diets of poultry and pigs amounted to 2.16 - 116.9 rubles per head.

Thus, from the data presented, it can be concluded that the proposed feed additive has novelty and advantage compared to the control group, the animals and poultry of which received a standard feed additive and standard compound feed according to the following main indicators:
- the composition of the feed additive;
- productive action;
- livestock safety;
- chemical composition, biological usefulness and quality of meat;
- sorbing effect;
- denitrifying action.

Sources of information
1. Fodder, feed additives and milk replacer for animals (composition and use), reference V.A. Krokhina et al. M .: Agropromizdat, 1990, p. 162 - 163.

 2. RF patent N 2034502, 05/10/1995

Claims (1)

A feed additive for farm animals and poultry containing potassium iodide, sodium selenite, salts of iron, zinc, cobalt, manganese and copper, characterized in that as salts of iron, zinc, cobalt, manganese and copper, it contains iron citrate, zinc citrate, cobalt citrate, manganese citrate, copper citrate and additionally contains soybean meal, fish meal, meat and bone meal, fodder yeast, citric acid mycelium, as well as vitamins A, D ₃ , E, B ₁ , B ₂ , B ₃ , as protein components. B _4, B _5, B _12, ascorbic acid, succinic sour y, lysine, methionine, defluorinated phosphate and sunflower in the following ratio, wt.%:
Soybean meal - 10 - 14.0
Fishmeal - 10 - 20.0
Meat and bone meal - 12.0 - 16.0
Fodder Yeast - 14.0 - 16.0
Mycelium of citric acid - 5.0 - 10.0
Iron citrate - 0.1 - 0.3
Zinc Citrate - 0.2 - 0.7
Cobalt Citrate - 0.02 - 0.05
Manganese Citrate - 0.4 - 0.7
Copper citrate - 0.03 - 0.07
Potassium iodide - 0.07
Sodium Selenite - 0.001
Ascorbic acid - 0.3 - 0.5
Succinic acid - 0.22
Lysine - 0.3 - 0.4
Methionine - 0.14 - 0.16
Vitamins:
A - 0.15 - 0.20
D ₃ - 0.015 - 0.04
E - 0.1 - 0.05
B ₁ - 0.02 - 0.04
B ₂ - 0.038 - 0.05
B ₃ - 0.1 - 0.03
B ₄ - 2.5 - 4.0
B ₅ - 0.2 - 0.3
B ₁₂ - 0.0003 - 0.0004
Defluorinated Phosphate - 2.0
Sunflower meal - Else

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