RU2676727C1 - Method of application of coniferous-energy supplement in feeding young sturgeons - Google Patents

Abstract

FIELD: fishing and fish farming.SUBSTANCE: invention relates to fish farming and can be used to add to the feed of young fish. Method involves introducing coniferous-energetic additive into the main ration of the feed in the amount of 3 % by weight of the feed. Immediately before giving the food is soaked in coniferous-energy supplement for 3 minutes.EFFECT: invention provides a reduction in the period of growing commercial fish.1 cl, 7 tbl

Description

The invention relates to agriculture, namely to fish farming and can be used for feeding sturgeon juveniles in fish breeding and reproduction enterprises.

The main goal of the development of aquaculture in our country is the reliable provision of the population with fresh and processed fish products of a wide range at prices affordable for the population with different income levels [Chikov A.E., Yurina N.A., Kononenko S.I., Osepchuk D.V. . A method of growing pond fish. Krasnodar, 2014. (1)].

Currently, the volume of aquaculture production in Russia is only 115-120 thousand tons, of which 60% of marketable fish is produced in the south of our country (Krasnodar and Stavropol Territories, Rostov, Astrakhan and Volgograd Regions). The southern regions of Russia belong to the fifth and sixth hatchery zones and are characterized as the most favorable for the development of aquaculture, however, their water resources are not used to varying degrees [Sklyarov V.Ya. The state of commercial fish farming in the Southern Federal District / Proceedings of the Kuban GAU. - 2012. - Issue. 4. - S. 86-89. (2)].

The decisive role of science and scientific and technological progress in the development of the economy as a whole and of each particular industry is known. However, to accelerate the development of innovations and their widespread development is possible only with the unconditional active support of the state. One of the main issues in the development of aquaculture is the organization of complete feeding of fish of various species and age groups [Sklyarov V.Ya. The state of commercial fish farming in the Southern Federal District / Proceedings of the Kuban GAU. - 2012. - Issue. 4. - S. 86-89. (2)].

The development of intensive forms of fish farming and the consistent increase in its efficiency along with the solution of technical problems urgently requires the most serious attention to the feeding process and the use of complete and cost-effective feeds for all age groups of farmed fish. A clear understanding of the fish breeding facilities, their nutritional needs, digestion characteristics, the composition and nutritional value of the feed used, its evaluation methods, feeding regimes and the mechanization of labor-intensive processes should contribute to the solution of this large task.

Substances and energy entering the body in the form of food, transforming in the digestive tract, ensure the implementation of all the vital functions of the animal. Part of the food consumed is not absorbed and is excreted into the environment. The less nutrients excreted, the more efficiently the feed is used. Therefore, the most important task is the creation and application in practice of such feed mixtures, which would be absorbed by organisms as much as possible to ensure their vital functions.

Currently, the technology of fish cultivation under artificial conditions is being improved and as a result, the role of production culture in obtaining fish products, especially valuable fish species, is increasing. On the other hand, high planting density, inevitable in conditions of industrial cultivation, provokes stress [Kononenko S.I., Paksyutov N.S. Efficiency of using Ronozyme WX in compound feeds // Bulletin of the Gorsky State Agrarian University. 2011. - T. 48. No. 1. - S. 103-106. (3); Maxim E.A., Pyshmantseva N.A., Kononenko S.I., Pyshmantseva A.A. The experience of using probiotics in fish farming // Collection of scientific papers of the All-Russian Research Institute of Sheep and Goat Breeding. 2013. - T. 3. - No. 6. - S. 152-154. (four)].

Obtaining environmentally friendly livestock products is the key to a healthy human diet [Kononenko SI. An effective way to increase productivity // Political Mathematical Network Electronic Scientific Journal of the Kuban State Agrarian University. - 2014. No. 98. - S. 759-768. (5)].

The microflora of the gastrointestinal tract of fish is very similar and differs only in the content of microorganisms of one kind or another in the digestive tract. It is based on non-spore-forming obligate-anaerobic bacteria: bifidobacteria, lactobacilli, bacteroids, enterococci, yeast-like fungi [Yukhimenko LN, Bychkova LI Prospects for the use of suboline for the correction of microflora of the intestines of fish and the prevention of CHD // Problems of protecting the health of fish in aquaculture: Abstracts. NTK. - M. - 2005. - 133-136. (6)].

Indigenous intestinal microflora, which is mainly located in the intestine, includes 1014 microorganisms representing more than 400 different types of bacteria that help fish gain resistance to various infections [G. Kulakov Subtilis is a natural concentrated probiotic. - M .: Vizavi Printing House LLC, 2003. - 48 p. (7)].

Microorganisms of the genus Lactobacillus have strong inhibitory properties against intestinal pathogenic microflora, provide high antimicrobial activity against enteropathogenic species of E. coli, various salmonella, streptococci, clostridia and other microorganisms [Ktsoeva II, Maxim EA, Yurina N.A. A new method of growing young carp // Bulletin of the Gorsky State Agrarian University. 2013.Vol. 50, p. 3.P. 99-101. (8)].

Under the industrial system of fish growing, there is an intensive accumulation of unfavorable microflora, both in water and in the environment, which has a direct effect on the intestinal microflora, especially the first months of life of young fish. Normally, conditionally pathogenic microorganisms are in the host organism in a small amount, without causing disease, and only under certain conditions they become truly pathogenic. In this case, pathogens are fought mainly with antibiotics. However, with prolonged use and in large doses, especially of a wide spectrum of action, the selection of antibiotic-resistant pathogenic and conditionally pathogenic microflora occurs [Pyshmantseva A.A., Yurina N.A., Kononenko S.I., Maxim E.A. . The use of probiotics in sturgeon fish farming // Collection of scientific papers of the North Caucasus Research Institute of Animal Husbandry. - 2014. - T. 2. - No. 3. - S. 225-229. (9)].

Probiotics do not have a detrimental effect on the microflora of the digestive tract, do not pollute fish products and the environment, and, accordingly, are safe for people who consume it [Gorkovenko LG, Chikov A.E., Omelchenko N.A., Pyshmantseva N.A. . The effectiveness of the use of probiotics "Bacell" and "Monosporin" in the diets of cows and calves // Zootechny. 2011. No3. S. 13-14. (10)].

Probiotics not only normalize the qualitative and quantitative composition of the intestinal microflora of the body after the use of antibacterial agents, but in many cases they can serve as the only effective method for the treatment, prevention, and stimulation of fish productivity [Gorlov I.F., Baranikov V.A., Yurina N.A. , Omelchenko N.A., Maxim E.A. The productive effect of the complex of probiotic supplements // Agrarian scientific journal. 2014. No. 11. S. 17-20. (eleven)].

In the conditions of a sharp drop in sturgeon stocks in natural reservoirs, commodity sturgeon farming methods have gained particular importance, which can not only reduce the fishing load on natural populations, but also save these valuable fish from the threat of complete destruction. The creation in the aquaculture of a living gene pool in the form of a brood stock of almost all types of sturgeon makes it possible, on the one hand, to restore the number of these fish in their natural habitat and, on the other hand, to organize the production of valuable black caviar from their own "milking" herds.

In commercial fish farming, the main task is to ensure the maximum yield of fish products in the shortest possible time. This means that it is necessary to have such foods that would maximize the flow of metabolic processes in fish. The solution to this problem is based on knowledge of the nutritional needs of fish. However, not only the composition of the feed and its quality ensure the use of transformed substances and energy for fish growth, but also the use of biologically active substances [Sklyarov V.Ya. The state of commercial fish farming in the Southern Federal District / Proceedings of the Kuban GAU. - 2012. - Issue. 4. - S. 86-89. (2)].

The most important condition for increasing fish productivity is the organization of rational and proper feeding, as At present, there is an acute shortage of highly nutritious, complete and highly effective feeds.

A large reserve for the production of feed additives is the waste of logging and products derived from them.

Balancing rations can be achieved not only through the introduction of scarce components, but also with the help of feed additives that increase the digestibility of feed. Biologically active preparations provide a more complete extraction of nutrients from feed, normalize the digestive system and, thus, ensure the physiological needs of the body.

The purpose of the invention is the development of a method of using coniferous-energy additives [TU 9759-011-42400357-13. Coniferous energy supplement. Technical conditions N. Novgorod, 2013 .-- 9 p. (12)] in the feeding of juvenile sturgeon fish, which makes it possible to intensify protein-carbohydrate metabolism due to the combination of glucoplastic substances and biologically active compounds of woody greens, which is part of the coniferous energy feed additive, and to increase the productivity of sturgeon fish.

The method of application of coniferous-energy additives in the feeding of juvenile fish consists in adding 3% of the mass of feed to the main diet of the feed of coniferous-energy additives, characterized in that the coniferous-energy additive was introduced into the feed immediately before giving, the feed was soaked in it for 3 minutes.

To accomplish these tasks, production experience was conducted in the conditions of LLC Albashi (Leningradsky district of the Krasnodar Territory). The traditional technology of feeding sturgeon fish with combined starter feeds was used.

A study of the effect of the feed additive was carried out with a weight of 1.5 g of young Bester juvenile fish, since it was during this period that the feeding of juveniles was the key to faster growth of sturgeon in farms. The experience of feeding the fish was carried out according to the scheme presented in table 1.

Feeding was carried out 12 times a day with granular feed. By the end of the cultivation, feeding was reduced to 8 times.

The composition of the feed for juvenile fish is presented in table 2, the nutritional value of the feed in table 3.

The water temperature in the pools was 16 ° C, the oxygen saturation was 7-8.5 mg / l. The number of sturgeons in each group is 500.

The conditions of detention in all groups of fish were the same and corresponded to fish breeding technology. The experiment lasted 90 days.

Weighing juvenile bester and measuring the length of the body was carried out individually on electronic scales at the beginning and at the end of the experimental period. When conducting an experiment lasting 90 days - monthly. The gross and daily average gains were determined by periods. The length of the fish was measured from the top of the snout to the vertical of the end of the longest lobe of the caudal fin with the fish horizontal.

The coefficient of fatness was determined as the ratio of weight to body length: according to the formula of T. Fulton: K = P × 100 / L ³ , where P is the weight of the fish (in g), L is the length of the body (in cm).

Safety (survival) was determined as a percentage of the surviving fish to the dead.

Hydrochemical indicators during the period of rearing of sturgeon juveniles were controlled within the limits allowed for sturgeon rearing in accordance with the requirements of [OST 15.312.87. "Protection of Nature. Hydrosphere. Water for fish farms. General requirements and norms ”(13)].

To study the intestinal microflora in the contents of the intestines of fish, the contents of Escherichia coli were studied according to GOST-30726-01, enterococci - according to GOST 28566-90, staphylococci - GOST 52815-2007, lactobacilli - GOST 10444311-89, clostridia - GOST 29185-91, yeast and mold - GOST 28805-90.

All research results were processed by the method of variation statistics using standard methods. To assess the significance of differences, t-student test was used. The differences were considered statistically significant at * - P <0.05; ** - P <0.01; *** - P <0.001.

In the experiment, the coniferous energy additive (HED) produced by STC Himinvest LLC (Nizhny Novgorod) was studied [Technological regulations for the production of coniferous energy additives. N. Novgorod, 2013 .-- 11 p. (fourteen)].

HED - a homogeneous viscous liquid with a characteristic coniferous smell, olive green or dark green, water content not more than 50%; pH 8-9; density not less than 1,126 g / cm ³ ; mass fraction of carotene per 100 g of extract is not less than 3 mg%. When conducting studies of the chemical composition of ED, the content of B vitamins (B1, B2, B3, B5, B6, B9), as well as carotenoids and other biologically active compounds, was established. The energy value of coniferous energy supplements is 250 kcal / 100 g supplements.

In this feed additive, a biologically active component, consisting of the sum of the extractives of the common green pine, plays the role of a feed additive. It can completely replace unbalanced vitamin preparations added to feed. The supplement contains glycerin, which is positive for optimizing the energy balance in the preparation of animal and bird rations.

The coniferous-energy feed additive was introduced into the feed immediately before the cottage. The feed was steeped for 3 minutes. The percentage of the additive was from 1 to 3% by weight of the feed.

An antibacterial preparation for fish “Antibak-100” (St. Petersburg) was used, containing ciprofloxacin as well as auxiliary components as an active ingredient. Ciprofloxacin, which is part of the Antibak-100 preparation, has a bactericidal effect against pathogens of bacterial fish diseases, including aeromonads, pseudomonads, mycobacteria, streptococci, vibrios, myxobacteria, corynobacteria, cytobacteria, yersinia and enterobacteria. According to the degree of toxic effects on the body, the antibiotic belongs to low-hazard substances for warm-blooded (hazard class 4 according to GOST 12.1.007-76) and fish. The drug "Antibak-100" is used along with food for therapeutic purposes.

Feeding of Bester fry was carried out by feed produced by Perspektiva LLC (Ilsky village, Seversky district, Krasnodar Territory).

The main fish breeding and biological indicators of growing Bester fry in scientific and economic experience are presented in table 4.

Note: * - P <0.05; ** - P <0.01; *** - P <0.001

The weight of fish increased at the end of rearing, increased in the second group by 5.0%, in the third group by 13.6% (P <0.001), in the fourth group by 34.8% (P <0.001), in the fifth group 8, 4% (P <0.05).

There was a tendency to increase the body length in fish of the second group by 1.0%, the third - by 3.0%, the fifth - by 2.0% and there was a significant increase in this indicator by 8.0% in the fourth group (P <0.001) .

The fatness ratio in the second group is greater by 1.8%, in the third group by 4.1%, in the fourth group by 7.2%, and in the fifth group, similarly to the second, by 1.8%.

The survival of fish significantly increased in the experimental groups: in the second by 3.2%, in the third by 5.6%, in the fourth - by 7.6%, in the fifth - by 5.4%. Feed intake in all groups was the same, since feeding was normalized. However, feed costs per 1 kg of live weight gain were less in the experimental groups, compared with the control, occurred in the second group by 5.0%, in the third - by 12.8%, in the fourth - by 27.1%, in the fifth - by 8.3%.

Note: * - P <0.05; ** - P <0.01; *** - P <0.001

During the experiment, a tendency was found to increase the protein content in the body of fish in the second group by 0.2%, in the third and fourth groups - by 0.7%, in the fifth - by 0.1%. A decrease in fat content of 0.4% was revealed in the second and fourth groups, in the third group by 0.3%, in the fifth group by 0.1%. The moisture level in the second group increased by 0.1%, in the third group by 0.5%, in the fourth group by 0.6%, in the fifth group decreased by 0.2%. The ash content increased by 0.1% in the second, third and fourth groups, in the fifth group the increase occurred by 0.2%.

In laboratory studies, at the end of growing young Bester, 3 individuals from each group were studied to study the composition of the intestinal microflora, the data of which are presented in table 7.

As can be seen from the data of table 7 on the composition of the intestinal microflora of juvenile bester, one can comment on the changes in the groups as follows: when giving the main diet, Escherichia coli was found in group 1 in a larger amount (without the addition of CED), which indicates a positive tendency to use CED to suppress the development of intestinal sticks when feeding juvenile sturgeon.

Staphylococci and enterococci are almost at the same level in groups, but this can be attributed to the parameter of low temperatures.

It is characteristic that the yeast develops most intensively when 3% of ED is given; a low concentration of ED (0.5% in the second group) does not give a visible development of these microorganisms.

We can conclude about the beneficial effect of CED on the intestinal microflora of juvenile sturgeon when 3% of the amount of feed is introduced, since it is the development of yeast that ensures the intensity of feed digestibility and the displacement of conditionally pathogenic microflora.

With the introduction of 3.0% of EDC of the feed weight in the feeding of juvenile sturgeon fish, it increased the final weight of the bester fry by 34.8%, increased fish survival by 7.6% and fatness by 7.2%.

The use of coniferous-energy supplements slightly increased the level of protein and protein in the body of Bester fry.

Feeding coniferous-energy feed additives has a positive effect on the intestinal microflora of fish.

A decrease in feed costs per 1 kg of growth was recorded, compared with the control in the fourth - by 27.1%)

The technology of introducing HED into the feed is simple, not costly, and can be used both for preparing your own feed mixtures, as is done on many fish farms, and when mixing ready-made granular, briquetted or paste-like feeds.

When using feed marked:

- increased activity of fish in the pre-winter period (since feeding was started in September, but in the conditions of the Krasnodar Territory, feeding can be carried out throughout the winter, especially for sturgeon and, of course, salmon fish);

- The best eatability of the feed was noted by detecting the time it took for the fish to eat the feed. If they needed 6-8 minutes when giving the main diet, then when using HED, the time was reduced to 4-5 minutes.

- increased color indicates an improvement in the physiological state of the fish, which is directly related to feeding conditions and the hydrochemical regime in fish tanks.

In addition, an increase in the eatability and digestibility of feed leads to a significant reduction in the period of cultivation of marketable fish and an improvement in the physiological state of producers and repair herds.

Information sources:

1. Chikov A.E., Yurina N.A., Kononenko S.I., Osepchuk D.V. A method of growing pond fish. Krasnodar, 2014.

2. Sklyarov V.Ya. The state of commercial fish farming in the Southern Federal District / Proceedings of the Kuban GAU. - 2012. - Issue. 4. - S. 86-89.

3. Kononenko S.I., Paksyutov N.S. Efficiency of using Ronozyme WX in compound feeds // Bulletin of the Gorsky State Agrarian University. 2011. - T. 48. No. 1. - S. 103-106.

4. Maxim EA, Pyshmantseva N.A., Kononenko S.I., Pyshmantseva A.A. The experience of using probiotics in fish farming // Collection of scientific papers of the All-Russian Research Institute of Sheep and Goat Breeding. 2013. - T. 3. - No. 6. - S. 152-154.

5. Kononenko S.I. An effective way to increase productivity // Political Mathematical Network Electronic Scientific Journal of the Kuban State Agrarian University. - 2014. No. 98. - S. 759-768.

6. Yukhimenko L.N., Bychkova L.I. Prospects for the use of suboline for the correction of microflora of the intestines of fish and the prevention of CHD // Problems of protecting the health of fish in aquaculture: Abstracts. NTK. - M. - 2005. - 133-136.

7. Kulakov G.V. Subtilis is a natural concentrated probiotic. - M .: Vizavi Printing House LLC, 2003. - 48 p.

8. Ktsoeva I.I., Maxim E.A., Yurina N.A. A new method of growing young carp // Bulletin of the Gorsky State Agrarian University. 2013.Vol. 50, part 3.C 99-101.

9. Pyshmantseva A.A., Yurina N.A., Kononenko S.I., Maxim E.A. The use of probiotics in sturgeon fish farming // Collection of scientific papers of the North Caucasus Research Institute of Animal Husbandry. - 2014. - T. 2. - No. 3. - S. 225-229.

10. Gorkovenko L.G., Chikov A.E., Omelchenko N.A., Pyshmantseva N.A. The effectiveness of the use of probiotics "Bacell" and "Monosporin" in the diets of cows and calves // Zootechny. 2011. No3. S. 13-14.

11. Gorlov I.F., Baranikov V.A., Yurina N.A., Omelchenko N.A., Maxim E.A. The productive effect of the complex of probiotic supplements // Agrarian scientific journal. 2014. No. 11. From 17-20.

12. TU 9759-011-42400357-13. Coniferous energy supplement. Technical conditions N. Novgorod, 2013 .-- 9 p.

13. OST 15.312.87. "Protection of Nature. Hydrosphere. Water for fish farms. General requirements and standards. "

14. Technological regulations for the production of coniferous-energy additives. N. Novgorod, 2013 .-- 11 p.

Claims (1)

The method of application of coniferous-energy additives in the feeding of juvenile fish consists in adding 3% of the mass of feed to the main diet of the feed of coniferous-energy additives, characterized in that the coniferous-energy additive was introduced into the feed immediately before giving, the feed was soaked in it for 3 minutes.