RU2708152C1 - Method for increasing efficiency of juvenile cyprinids - Google Patents

Abstract

FIELD: fishing and fish farming.SUBSTANCE: method involves adding a biologically active substance to the aquatic environment of fish, which is represented by extract from mycelial biomass or fruit bodies of fungi at concentration of biologically active substance of 1.7*10% to 26.0*10%. Daily replacement of 1/3 volume of water habitat is performed 1.5–2 hours after the next feeding.EFFECT: method provides higher survival rate and considerable increase of young fish weight.4 cl, 1 tbl, 3 ex

Description

The invention relates to the fishing industry and can be used in fish farming in industrial production (in complexes and farms) to increase the efficiency of growing juvenile fish in the aquaculture.

During transportation, transplantation, sorting, juvenile fish experience a stressful effect, which entails the death of juvenile fish. Reducing the death and increasing the survival rate of juvenile fish under mechanical and chemical (pollutants in the aquatic environment) stresses is an urgent task.

The proposed method solves the problem of increasing the viability of juvenile fish by increasing the body's resistance to the effects of stress factors of various nature by keeping them in the presence of a biologically active substance isolated from mycelial biomass or from fruiting bodies of mushrooms.

A known method of stimulating the development of fish, patent RU No. 2028046, A01K 61/00, publ. 02/09/1995. In the known method, caviar in the stage of a mobile embryo is treated with the product "BIOEX" (biologically active extract) in a dose of 0.001 - 0.01% solution obtained from crop waste. The specified solution is prepared by drying the raw materials (tops of tomatoes, cucumbers, stems of flowering plants, etc.) followed by aqueous extraction. Then, when rearing juveniles, the product is introduced into the feed at a dose of 0.02-0.1% of the feed mixture with an interval of 20-30 days during the growing season.

The disadvantage of this method is the inability to standardize plant biomass: using various plant waste, the authors each time get water extracts with different properties, because different plants contain different classes of chemicals.

A known method of increasing the efficiency of growing juvenile fish, patent RU No. 2582340, A01K 61/00, publ. 04/27/2016.

The method involves the addition of a humic compound containing, in certain amounts, humic acids and fulvic acids to the aquatic habitat of juvenile fish. Amino acids, macrocells — nitrogen, phosphorus, iron, calcium, and microelements — potassium, magnesium, sodium, manganese, zinc, copper, vitamins, sugar, and fat are also introduced into the aquatic environment in certain amounts. The invention provides a reduction in the adaptation period and an increase in the gain in live weight of juvenile fish.

The disadvantage of this method is the technological complexity of introducing into the environment of fish a large number of components.

A known method of increasing the vitality of eggs, larvae, juvenile fish and acceleration of their growth, patent RU 2223643, A01K 61/00, publ. 02/20/2004. For this purpose, the probiotic preparation Subtilis obtained from the biomass of the Bacillus subtilis strain VKM B-2250 D. natural immunity.

The disadvantage of this method is the complexity of obtaining the drug and the short shelf life of the viability of bacteria.

The closest in technical essence to the claimed method is a method of increasing the viability of fish and crustaceans in the early stages of development, patent RU 2115308, А01K 61/00, publ. 07/20/1998, selected by the authors for the prototype.

The invention relates to methods for increasing the viability of larvae and juveniles of fish and fish-shaped and can be used in fish farming. The purpose of the invention is to increase the resistance of objects to the effects of stress factors of various nature. The method involves adding to the aquatic environment a biologically active substance obtained by lyophilization of an acid extract of the pineal gland tissue (pineal gland, or pineal gland located in the brain), and keeping the fish and fish-like in the specified aqueous solution for 1-1.5 hours at a concentration a solution of 10 - 50 mg / l.

The disadvantage of this method is the complexity of its implementation, which is due to the difficulty of obtaining the gland itself and a rather laborious way to obtain an acidic extract of pineal gland tissue and freeze-drying it. In addition, the exposure of objects in solution is carried out for 1-1.5 hours, and then transplanted into the environment, which is associated with a stressful effect on living objects.

The above known patents disclose the use of various extracts from a gland of animal origin, plants, the use of microorganisms. From the prior art it is not known about the use of extracts from mycelial biomass or from the fruiting bodies of mushrooms for the effective cultivation of juvenile fish. It is known that mushrooms make up the Kingdom of Mushrooms, different from animals and plants.

The technological problem to which the invention is directed is to develop a method for increasing the efficiency of rearing of young fish of the cyprinid family.

The technical result of the invention is to increase survival and a significant increase in the mass of juvenile fish when implementing the proposed method.

The specified technical result is achieved by the fact that a method of increasing the efficiency of growing juvenile fish of the cyprinidae family includes adding a biologically active substance to the aquatic environment, while extracting from mycelial biomass or from fruit bodies of mushrooms is used as a biologically active substance, and the aquatic habitat of juvenile fish is prepared family of cyprinids with a concentration of biologically active substances from 1.7 * 10 ^-6 % to 26 * 10 ^-6 % and daily replace 1/3 of the volume of the aquatic environment after 1.5-2 hours after le next feeding.

To obtain mycelial biomass, oyster mushroom (Pleurotus ostreatus) or reishi (Ganoderma lucidum) is used. Reishi and oyster mushrooms receive mycelial biomass by growing the mycelium of these mushrooms on a beer pellet. To obtain fruit bodies of mushrooms - oyster mushroom.

The essence of the invention lies in the fact that the juvenile fish of the cyprinid family is grown for a month in an aqueous solution of a biologically active substance, which is an extract from mycelial biomass of Reishi or oyster mushroom, or from the fruit bodies of mushrooms, in particular oyster mushrooms. These extracts contain amino acids (leucine, valine, lysine, tryptophan, threonine) and vitamins (B6, B 9, PP, folic acid).

The use of extracts from mycelial biomass or fruit bodies of mushrooms as a biologically active substance causes a balanced response of the body, which ensures a decrease in death and an increase in the mass of juvenile carp.

The choice of the concentration of the extract substance in the aquatic environment of juvenile fish of the cyprinid family used in the proposed method is due to the fact that the maximum effect of increasing the viability of juvenile fish was observed at a concentration of biologically active substance from 1.7 * 10 ^-6 % to 26 * 10 ^-6 % .

An increase in the concentration of the extract substance in the aquatic environment to values of more than 26 * 10 ^-6 % did not lead to an additional positive effect. When the concentration of the extract substance is less than 1.7 * 10 ^-6 %, the method is ineffective.

The method is as follows.

Example 1

Reishi or oyster mushrooms mycelia are grown on beer waste: beer grains. Moistened beer pellets are sterilized and seeded with Reishi or oyster mushroom mycelium. After complete overgrowing substrate (spent grains) mycelia (approximately 10-14 days at +28 .. + 30 ° ^C) mycelial biomass is dried and stored prior to receipt therefrom of biologically active extracts.

For fruit bodies of fungi packets substrate (spent grains) overgrown mycelium, moved to the room with a temperature of + 14 ... + 16 ^{° C} to initiate the process of fruit. After the fruiting period is over, the fruiting bodies are harvested and dried. Further, from them you can get a biologically active extract.

Example 2

An extract is prepared from dry mycelial biomass of Reishi or oyster mushroom, or from dry fruit bodies of an oyster mushroom. To do this, 5 parts by weight of water are added to 1 part by weight of dry mycelial biomass of Reishi or oyster mushroom, or dry fruit bodies of an oyster mushroom and insist for 24 hours. After filtering through the filter "red ribbon".

As a result, the concentration of extracts from the Reishi mycelial biomass by dry residue was 1.7%; the concentration of extracts from mycelial oyster mushroom biomass by dry residue was 2.5%; the concentration of extracts from the fruit bodies of oyster mushrooms on a dry residue was 5.2%.

Example 3

An extract of mycelial oyster mushroom biomass in an amount of 0.03 ml containing biologically active substances at a concentration of 2.5 * 10 ^-6 % is added to a container of water for keeping young fish of a family of cyprinids with a volume of 30 liters.

Young fish of the cyprinid family are placed in this tank and reared for 1 month.

A partial change of water (1/3 of the volume = 10 liters) in the tanks is carried out daily, after 1.5-2 hours after feeding, for example, AQUAREX "Karp standard 48/10". All juvenile fish are fed equally in the control and in the experimental groups. For a partial change of water, tap dechlorinated water is used, which has been left for 3 days [Guidelines for the development of water quality standards for water bodies of fishery importance, including standards for maximum permissible concentrations of harmful substances in the waters of water bodies of fishery use. Approved Order of the Federal Agency for Fisheries of 04.04.2009 No. 695]. After a partial change of water in order to remove food residues and fish waste, add 10 l of a ready-made solution containing extracts from oyster mushroom mycelial biomass at a concentration of 2.5 * 10 ^-6 %.

Analogously to example 3, other experimental examples of the method for increasing the efficiency of growing young fish of the cyprinid family in an aqueous medium containing various concentrations of biologically active substances representing extracts from mycelial biomass of reishi or oyster mushroom (concentrations other than the above example 3) or from fruit bodies of mushrooms are carried out oyster mushrooms presented in the lines of paragraphs. 2-9 tables, columns 3, 4.

The survival of juvenile fish of the cyprinid family is determined by systematic recording of live and dead individuals throughout the experiment (within 1 month). The initial average weight of juvenile fish was 450 mg.

Positive results of all examples of the implementation of the method are shown in the table, columns - 5, 6, 7.

The addition of extracts obtained from mycelial biomass of oyster mushrooms or reishi, or from the fruit bodies of oyster mushrooms, in the aquatic habitat had a positive effect on the survival and live weight of juvenile fish in the experimental examples. In the control example, the survival rate of juvenile fish of the cyprinid family was 85%, while in the experimental examples it was 92.5-97.5%.

The weight gain of juvenile carp in the control example was 13.5% (column 7, paragraph 10 of the table). With the addition of a solution of extract from oyster mushrooms or reishi mycelial biomass, or from fruit bodies of oyster mushrooms into the aquatic environment, the increase in the mass of juvenile carp increased to 16.0 - 26.7%, respectively (column 7 of the table).

Table

No. p / p
The aquatic habitat of juvenile fish of the cyprinid family with the content of: The amount of extract in ml per 30 l of water The concentration of the extract substance in the aquatic environment,% The survival rate of juvenile fish carp,% Mass of juvenile carp, mg (at the end of the experiment) Weight gain of juvenile carp,% one 2 3 4 5 6 7 one extracts from oyster mushroom mycelial biomass (dry ost. 2.5%) 0,03 2.5 * 10 ^-6 97.0 518 15.0 2 extracts from oyster mushroom mycelial biomass (dry ost. 2.5%) 0.09 7.5 * 10 ^-6 97.5 524 16.5 3 extracts from oyster mushroom mycelial biomass (dry ost. 2.5%) 0.15 12.5 * 10 ^-6 97.0 522 16,0 4 extracts from Reyce mycelial biomass (dry ost. 1.7%) 0,03 1.7 * 10 ^-6 97.0 550 22.0 5 extracts from Reyce mycelial biomass (dry ost. 1.7%) 0.09 5.1 * 10 ^-6 97.5 555 23.3 6 extracts from Reyce mycelial biomass (dry ost. 1.7%) 0.15 8.5 * 10 ^-6 97.0 553 23.0 7 extracts from oyster mushroom fruit bodies (dry ost. 5.2%) 0,03 5.2 * 10 ^-6 92.1 563 25.0 8 extracts from oyster mushroom fruit bodies (dry ost. 5.2%) 0.09 15.6 * 10 ^-6 92.5 570 26.7 nine extracts from oyster mushroom fruit bodies (dry ost. 5.2%) 0.15 26 * 10 ^-6 92.0 568 26.3 10 Control without the addition of hoods 0 0 85.0 510 13.5

Differences in behavior were observed: juvenile fish in the control example were little active and cautious. In the experimental examples, the young fish were actively eating food.

Thus, the introduction into the aquatic habitat of juvenile fish of the family of carp extracts obtained from mycelial biomass of Reishi or oyster mushrooms, or fruit bodies of oyster mushrooms, allows accelerating the gain in live weight of juvenile fish and increasing their survival.

Claims (4)

1. A method of increasing the efficiency of growing juvenile fish of a family of cyprinids, comprising adding a biologically active substance to the aquatic environment, characterized in that an extract from mycelial biomass or from fruit bodies of mushrooms is used as a biologically active substance, and preparing an aqueous habitat of juvenile fish of a family of cyprinids with a concentration of biologically active substances from 1.7 * 10 ^-6 % to 26.0 * 10 ^-6 % and daily replace 1/3 of the volume of the aquatic environment in 1.5-2 hours after the next feeding. 2. The method according to p. 1, characterized in that for the production of mycelial biomass using oyster mushroom or reishi. 3. The method according to p. 2, characterized in that the mycelial biomass of Reishi and oyster mushrooms are obtained by growing the mycelium of these mushrooms on a beer pellet. 4. The method according to p. 1, characterized in that for the production of fruiting bodies of mushrooms using oyster mushroom.