RU2464800C1 - Composition of feedstuff for carp breeding in cages - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to farm industry, in particular, to fish breeding. The composition of a feedstuff for cyprinid fishes breeding in cages includes fish meal, meat-and-bone meal, feed yeast, soya bean meal, sunflower cake, wheat, wheat offal, sunflower oil and the following microelements: manganese, zinc, ferrum, cuprum, cobalt. The said microelements are introduced into the recipe formula in the form of aspartates. All the components are taken at the specified ratio.

EFFECT: invention allows to reduce the rate of microelements introduction into the feedstuff for carp breeding to preserve productivity due to microelements contained in a biologically available form.

3 tbl, 1 ex

Description

The invention relates to agriculture, namely to fish farming.

Known compound feeds for growing carp, including fish flour 3%, meat and bone meal 1%, yeast 4%, soybean meal 17%, sunflower meal 30%, etc. (Makartsev N.G. Feeding of farm animals. - K .: State Unitary Enterprise “ Oblizdat ”, 1999. - p.618).

The disadvantage of the composition is that the feed is not balanced for macro- and microelements, which is necessary for the normal growth and development of fish during intensive rearing.

The known composition of the feed "III-9" for growing carp, including the following components in weight percent: fish meal 19%, meat and bone meal 1%, yeast feed 3%, soybean meal 20%, sunflower meal 10%, wheat 19%, dry return 2%, wheat bran 15% and premix PM - 2 in the amount of 1% (prototype - Ponomarev S.V., Lagutkina L.Yu., Kireeva I.Yu. Farmer aquaculture: Recommendations. - M.: Federal State Institution Rosinformagroteh, 2007. - p. 60). Premix PM - 2 contains vitamins: A, D ₃ , B ₁ , B ₂ B ₃ B ₅ B ₁₂ and trace elements: iron, copper, zinc, manganese and cobalt, which are introduced into the compound feed in the form of inorganic salts (http: // ahinvest.ru/pr-krs.html). In addition, the composition of compound feed for carp may use vegetable oil (Ponomarev S.V., Grosesku Yu.P., Bakhareva A.A. Industrial fish farming. - M .: Kolos. 2006. - p. 160).

The disadvantage of the prototype is the use of trace elements in the form of inorganic salts, which in industrial growing conditions, even with normative feeding, do not adequately satisfy the physiological needs of carp, which leads to a decrease in food activity, productivity and the development of a number of diseases.

The technical result is to reduce the rate of entry of trace elements in feed for growing carp in order to maintain productivity due to the content of trace elements in a bioavailable form.

The technical problem is achieved in that the composition of the feed for feeding cyprinids in cages includes fishmeal, meat and bone meal, yeast, soybean meal, sunflower meal, wheat, wheat bran, sunflower oil and trace elements:

manganese, zinc, iron, copper, cobalt, in which according to the invention, these trace elements are introduced into the formulation in the form of asparaginates, in the following ratio, wt.%:

Fish meal 9,0000000-11,0000000 Meat and bone meal 3,5000000-2,5000000 Fodder yeast 5.5000000-4.5000000 Soybean meal 33.5000000-36.5000000 Sunflower meal 10,0000000-8,0000000 Wheat 14.0000000-16.0000000 Sunflower oil 3,5000000-2,5000000 Wheat bran 20,9968021-18,9967699 Iron asparaginate 0,0009303-0,0009397 Copper asparaginate 0.0001413-0.0001427 Zinc Asparaginate 0.0014776-0.0014924 Cobalt Asparaginate 0.0000139-0.0000141 Manganese Asparaginate 0,0006348-0,0006412

To prepare feed, it is necessary that all components are ground and mixed. To do this, soybean meal, sunflower meal and wheat are ground. Then these components are thoroughly mixed with fish meal, meat and bone meal, fodder yeast, bran, wheat and sunflower oil. Then, finished asparaginates of iron, copper, zinc, cobalt, manganese, produced by the method described in patent No. 2411747, are added to the resulting mixture with simultaneous mixing. After that, the finished mixture is passed through a granulator, after which the feed mixture takes the form of granules. In this case, the diameter and length of the granules should correspond to the mass of the fish grown. The following ratios between the pellet size and the mass of the carp are preferable, presented in table 1 (Ponomarev S.V., Lagutkina L.Yu., Kireeva I.Yu. Farmer aquaculture: Recommendations. - M.: Federal State Institution Rosinformagroteh, 2007. - p. .59, table 3).

Table 1 Recommended ratios between pellet size and carp weight The mass of fish, g Granule size mm 1-10 1.5-2.5 10-40 2.5-3.5 40-150 3.5-4.5 150-500 5-6 More than 500 6-8

In the proposed composition of the feed, the number of trace elements of iron, copper, zinc, cobalt, manganese introduced in the form of asparaginates in the amount of 10% of the rate of feeding of trace elements in the form of inorganic salts. And inorganic salts, as you know, are accompanied by impurities of toxic compounds of heavy metals, poorly excreted from the body and, as a result, reduce the nutritional activity in fish. The composition of the feed also takes into account the physiological needs of the age groups of carp in basic nutrients, macro- and microelements.

Example. In the Volga branch of the Federal State Institution “Management of the Saratovmeleovodkhoz” in a pond with an area of 157 hectares, located on the territory of the Borodayevsky municipal district of the Marxovsky district of the Saratov region, two groups of fish of 600 pairs of carp were grown in separate cages. The fish were fed in accordance with the physiological needs of the age groups of carp for basic nutrients, macro- and microelements. At the beginning of the experiment, the weight of each fish averaged 20 g. The growing period was 22 weeks. During the growing period, the fish of the first group received compound feed with the composition of the prototype, and the second group was fed compound feed with the composition according to the invention. By the end of the 10th week, the live weight of one fish in the first group averaged 301.7 g, and the live weight of one fish in the second group averaged 302.0 g. By the end of the 22nd week, the weight of one fish in the first group averaged amounted to 980.6 g, and in the second - an average of 990.5 g. At the end of the growing period, the weight gain of one fish was determined: for the entire growing period in the first group this increase was 960.6 g, in the second group - 970.5 g The total growth over the entire period of cultivation in the first group, taking into account dead fish (600-12 = 588 pieces), amounted to 576.4 kg (960.6 g × 588 pieces = 564832.8 g = 564, 8 kg). The total growth over the entire growing period in the second group, in which one fish did not die, amounted to 576.4 kg (970.5 g × 600 pcs. = 582300 g = 582.3 kg). The overall growth indicators make it possible to conclude that the use of the feed composition according to the invention not only preserves the productivity of the carp, but also increases the overall productivity of the carp by 17.5 kg compared to the prototype.

Table 2 shows comparative data on productivity indicators and safety indicators using compound feed according to the prototype and according to the invention.

table 2 Indicators The composition of the prototype The composition according to the invention Preservation,% 98.0 100.0 Fish waste (dead individuals), pcs. 12.0 - Total gain, kg 564.8 582.3 Additional gain, kg - 17.5

Thus, the results of growing carp in cages showed that a 10% reduction in the feed rate of micronutrient input in the form of asparaginates in comparison with the prototype preserves the high productivity and safety of the carp.

Carp productivity is maintained due to the fact that asparaginates are representatives of chelating compounds, the trace elements of which are absorbed in a form that is easily used by the body. Unlike oxides and sulfates, trace elements in this form do not react with other nutrients in the diet and do not form unassimilable complexes. They have more suction points, as they take advantage of the absorption pathways of amino acids and peptides, while inorganic trace elements compete for absorption sites. The result - more trace elements enter the body. In the body, microelements in this form dissolve better, are quickly transported and penetrate easier through cell membranes than inorganic ones; in blood plasma they do not compete with the transport mechanisms of inorganic forms of microelements, that is, they are characterized by high bioavailability and bioactivity in the body.

Table 3 shows the quantitative justification of the ingredients of the proposed composition of the feed.

Table 3 The composition of the feed with bottom with middle with maximum the limit the limit the limit Fish meal 9,0000000 10,0000000 11,0000000 Meat and bone meal 3,5000000 3,0000000 2,5000000 Fodder yeast 5,500,000 5,0000000 4,5000000 Soybean meal 33,5000000 35,0000000 36,5000000 Sunflower meal 10,0000000 9,0000000 8,0000000 Wheat 14,0000000 15,0000000 16,0000000 Sunflower oil 3,5000000 3,0000000 2,5000000 Wheat bran 20,9968021 19,9967860 18,9967699 Iron asparaginate 0,0009303 0,0009350 0,0009397 Copper asparaginate 0.0001413 0.0001420 0.0001427 Zinc Asparaginate 0,0014776 0,0014850 0,0014924 Cobalt Asparaginate 0.0000139 0.0000140 0,0000141 Manganese Asparaginate 0,0006348 0,0006380 0,0006412 Indicators Preservation,% 100.0 100.0 100.0 Fish waste, pcs. 0,0 0,0 0,0 Total gain, kg 581.5 582.3 582.9

As can be seen from the table, the claimed quantitative ratio of micronutrients in feed for growing carp ensures the preservation of carp productivity while reducing the input rate of micronutrients in the amount of 10% of the norm for feeding trace elements in the form of inorganic salts.

Claims (1)

Composition of compound feed for growing carp in cages, including fish meal, meat and bone meal, fodder yeast, soybean meal, sunflower meal, wheat, wheat bran, sunflower oil and trace elements: manganese, zinc, iron, copper, cobalt, characterized in that said trace elements introduced into the formulation in the form of asparaginates in the following ratio of components, wt.%:
fish meal 9,0000000-11,0000000 meat and bone meal 3,5000000-2,5000000 feed yeast 5.5000000-4.5000000 soybean meal 33.5000000-36.5000000 sunflower meal 10,0000000-8,0000000 wheat 14.0000000-16.0000000 sunflower oil 3,5000000-2,5000000 wheat bran 20,9968021-18,9967699 iron asparaginate 0,0009303-0,0009397 copper asparaginate 0.0001413-0.0001427 zinc asparaginate 0.0014776-0.0014924 cobalt asparaginate 0.0000139-0.0000141 manganese asparaginate 0,0006348-0,0006412