RU2048774C1 - Fodder - Google Patents

Abstract

FIELD: fodder production. SUBSTANCE: proposed fodder contains (mass): concentrate of algae 0.35-0.70, commonly used fodder the rest. EFFECT: improves quality of desired product. 4 tbl

Description

 The invention relates to agriculture, namely to the feed of farm animals.

 It is known to use sulfates of magnesium, iron, manganese, zinc, copper, potassium iodide as a trace element in poultry feed (A. S. USSR N 718078).

 In common with the claimed invention is that the composition of the proposed feed includes a product with these elements.

 However, the hygroscopicity of sulfate salts creates certain difficulties with their introduction into animal feed. In addition, potassium iodide during storage of premixes decomposes with the release of iodine, which due to the high chemical activity causes the destruction of vitamins that make up the premix.

 It is known to use the natural bischofite product as a mineral top dressing for animals (A.S. USSR N 874021).

 In common with the claimed invention is that the proposed feed contains a biologically active mineral supplement, which is a natural product, and contains both macro- and microelements.

 However, in natural bischofite there are no such trace elements necessary for the life of the body as iodine, manganese, zinc, chromium.

It is known to use as a feed additive (A.S. USSR N 1255092) in the feed for lactating cows the waste of processing algae phyllophora ribbed in the following ratio of components, wt. Coarse feed 12-15 Concentrated feed 8-10 Phyllophore waste 0.8-1.0 NaCl 0.2-0.25 Succulent feed Rest
In common with the claimed invention is the presence in the composition of the feed of the processed product of the algae phyllophora. The phyllophore processing product used in the prototype does not provide the claimed technical result. This is explained by the following:
1. The product used from phyllophora contains protein compounds (-30%), macro- and microelements (including iodine) in an intact protein structure, which leads to difficult digestibility.

 2. The dosage of iodine in feed using the specified product is 40 mg per 1 kg, which exceeds the upper limit by 5 times.

 The aforesaid is confirmed in the work of A. P. Dmitrochenko "Iodine in the feeding of farm animals" The biological role of iodine. M. Kolos, 1972, p. 61.

 The basis of the invention is the task of creating feed for farm animals by replacing a known product from phyllophora with an algal microelement concentrate and changing the quantitative composition of the feed.

 The technical result consists in increasing the average daily gain of animals, reducing mortality, reducing the cost of producing complete feeds.

The inventive feed for farm animals, animals, poultry and fish includes feed of the main diet and a product from phyllophora, while the product contains phytophosphate concentrate with algae in the following ratio of feed components:
trace element concentrate algae 0.35-0.70%
main ration feed
In the present invention, the new is the use in the composition of the feed of a mineral additive of complex action-concentrate of microelements of algae -TU 15-004-582-89.

The algal microelement concentrate (CMC) contains more than 20 elements, including SiO ₂ ≈4.57 В ₂ О ₃ ≈0.2 С ≈ 1.0 in the ash residue (18% ash) ^. 10 ^-3 CaO ≈ 61.7 K ₂ O ≈ 0.6 Mo ≈ 2.5 ^. 10 ^-3 Fe ₂ О ₃ ≈4.1 ТiО ₂ ≈ 0.1 Nb ≈1.5 _. 10 ^-3 Na ₂ O ≈ 4.1 ZnO ≈ 1.4 Zr ≈ 1.0.10 ^-2 MgO ≈1.5 Pb ≈ 0.8 ^. 10 ^-3 V ≈ 5.0 ^. 10 ^-4 Al ₂ O ₃ ≈ 1.0 Sn ≈ 2.5 ^. 10 ^-1 Cu ≈ 3.5 ^. 10 ^-2 MnO ≈ 0.2 Cr ≈2.3 ^. 10 ^-2 Br ₂ ≈0.5 ^. 10 ^-2 P ₂ O ₅ ≈ 0.3 Ni ≈ 3.0 ^. 10 ^-2 I ₂ ≈ 0.2 ^. 10 ^-1
In addition, the concentrate contains ≈10% protein substances.

 The presence of the specified macro- and microelements in the algal microelement concentrate and their total amount in the feed of the main diet provides an increase in the average daily gain, a decrease in the case and a decrease in the cost of producing complete feeds.

The invention is as follows:
in the feed, which is the main diet, balanced in nutrition, add a concentrate of trace elements algae in an amount of 0.35-0.70%
Examples 1-5 show the results of feeding under aquatic conditions for 10 days of carp yearlings with a high-protein feed of the VBS-RZh-85 recipe with the addition of an algal microelement concentrate (CMV).

PRI me R 1. In the feed for fish recipe VBS-RZH-85 (soybean meal 9% sunflower meal 20% wheat -40% bran 4% peas 10% epprin 16% chalk 1%), concentrate is added before mixing trace elements algae in the amount of 0.35%
The feeding results are given in table. 1.

 PRI me R 2. Illustrates the results of feeding yearlings of carp to feed the recipe VBS-RZH-85 without the addition of a concentrate of microelements of algae (control).

 The feeding results are given in table. 1.

 PRI me R s 3-6. Illustrate the results of feeding yearlings with food of the recipe VBS-RZH-85 with the addition of various amounts of trace elements concentrate from phyllophore algae.

 The feeding results are given in table. 1.

 PRI me R s 7-9. Illustrate the results of feeding for 4 months of carp yearlings from the stage of larvae in pond conditions by feeding the recipe VBS-RZh-85 with the addition of various amounts of seaweed microelement concentrate.

 The feeding results are given in table. 2.

From the results given in table. 1, it can be seen that feeding of yearlings of carp with the inclusion of 0.35-0.70% of an algal microelement concentrate in the feed of the main diet led to an increase in relative growth of 16.0-12.0% over 40 days, respectively. Marked changes in metabolism:
protein accumulation in all experimental groups was higher than the control (at a dosage of 0.35% by 17.0%);
phosphorus deposition by 30-70% carbohydrates by 40-80%
Therefore, the inclusion of a concentrate of algal microelements in the feed at a dose of 0.35-0.70% enhances the anabolic processes in the body of fish. A dosage of 1.4% has a negative effect on metabolism, which confirms the digestibility of the algal microelement concentrate.

 The results show that the concentrate of microelements algae can be considered as a biologically active additive with a complex effect.

The results are shown in table. 2, confirm the effectiveness of feeding pond fish with the inclusion of algal microelement concentrate in the feed. Pond survival increased by 60-70%
PRI me R 10 illustrates the results of feeding for 7 weeks broiler chickens with food of the main diet (RR), nutritionally balanced, with the addition of 0.6% concentrate of microelements of algae.

 The results are shown in table 3.

 PRI me R 11. Illustrates the results of feeding for 7 weeks broiler chickens with a feed of the main diet, balanced in nutrition, with the addition of trace elements of sulfate salts of zinc, manganese, copper, iron, cobalt chloride, potassium iodide. Control.

 The feeding results are given in table. 3.

 PRI me R s 12-15. Illustrate the results of feeding for 7 weeks broiler chickens with food of the main diet, balanced in nutrition, with the addition of various amounts of seaweed microelement concentrate.

 The feeding results are given in table. 3.

 PRI me R s 16-19. Illustrate the results of feeding laying hens of the Cross breed "P-46" with the feed of the main diet with the addition of various amounts of seaweed microelement concentrate.

 The results are shown in table. 4.

As can be seen from the table. 3-4 data on poultry feeding, feed of the proposed composition increases the safety of chickens by 5%; average live weight by 2-3%. Compared with the control group, differences in nitrogen use were 1.65-7.85%
The number of individuals with deformed extremities was a minimum of 2 heads (2%), compared with the control 9.9%. The decrease in the number of individuals with deformed extremities can be explained by a higher content of calcium in the bones of 2.22-3.45% manganese by 0.11 -0.46 and iron 0.8-2.64%
From the above results of feeding chickens and laying hens with the food of the proposed composition, it follows that the seaweed microelement concentrate allows not only to exclude mineral salts as additives to the main diet, but also to increase the digestibility of nutrients in the main diet, which helps to increase live weight, egg production, preservation of livestock . The inventive feed is easily prepared, while not requiring special equipment and knowledge.

The following feeding results were obtained:
1) at the All-Russian Scientific Research Institute of Pond Fisheries,
2) at the All-Russian Research and Technological Institute of Poultry.

Claims (1)

 FOOD, including feed of the main diet and the product of the processing of phyllophora, characterized in that as the product of the processing of phyllophora, it contains an algae microelement concentrate in the following ratio of components, wt. Algal microelement concentrate 0.35 0.70
Basic ration feed

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