RU2535093C1 - Method of protection of fish at early stages of ontogeny - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method of protection of fish at early stages of ontogeny is carried out by treatment with an oil solution of sulphur-containing antioxidant (3.5-dimethyl-4-hydroxy) benzylthiododecane during degumming of impregnated roe.

EFFECT: method provides protection of fish in conditions where water intake for roe incubation is carried out from natural water reservoirs with unstable hydrochemical composition, increasing hatching and survival of embryos and larvae of fish.

2 cl, 1 tbl, 1 ex

Description

The invention relates to aquaculture and may find application for artificial fish farming in small fish breeding enterprises, where water is taken for incubation of eggs from natural reservoirs with an unstable hydrochemical composition.

Alkylated phenols, which form stable phenoxyl radicals in an acidic medium, are highly effective antioxidants. Due to their low toxicity, they are widely used in medicine, technology, food industry, etc. However, in the fishing industry, these compounds are rarely used.

A known method of stimulating the development of fish (SU N 1551308, class A01K 61/00, 1988), where the eggs in the stage of the moving embryo was treated with the product "BIOEX" in a dose of 0.001-0.01 wt.%, Obtained from crop waste. The disadvantage of this method is the lack of vitality and survival of fish embryos.

The closest in technical essence of the claimed method is a method of optimizing embryonic development of fish, in which the sulfur-containing antioxidant Thiophan, belonging to the class of spatially-hindered phenolic organic compounds, is introduced into the eggs at the stage of de-gluing. (Keberlain O.V., Sakharov A.V., Makeev A.A. et al. “The influence of various technologies for the de-sticking of eggs on the intensity of the germinal development of specular carp in the conditions of industrial breeding technology” // Siberian Bulletin of Agricultural Science. Novosibirsk, 03/2010. - S.63-70.). The disadvantage of this method is the lack of vitality and survival of fish embryos.

The problem to which the invention is directed, is to increase the hatching and survival of fish embryos, which is achieved by developing a method of antiradical protection of fish embryos to stabilize the shell of fish eggs and reduce embryonic death of fish.

The problem is solved by using (3,5-dimethyl-4-hydroxy) benzylthiododecane (RU 2447888 C1) as a means of anti-radical protection of fish, which can increase hatching of embryos from eggs and the survival of embryos and fish larvae.

(3,5-Dimethyl-4-hydroxy) benzylthiododecane has a membrane-stabilizing, cytoprotective effect and can be used to increase hatching and survival of fish embryos and larvae.

The use of (3,5-dimethyl-4-hydroxy) benzylthiododecane as an antiradical and antioxidant to increase hatching and survival of fish embryos is not described in the literature.

A method is proposed for protecting fish in the early stages of ontogenesis by treating with an antiradical agent, an oil solution of a sulfur-containing antioxidant (3,5-dimethyl-4-hydroxy) benzylthiododecane is used as a means of deflation of fertilized eggs. Use the concentration of the oil solution (3,5-dimethyl-4-hydroxy) benzylthiododecane not higher than 5 wt.%.

Fundamentally new in the present invention is that as an antiradical and antioxidant agent, a new generation of sulfur-containing antioxidant (3,5-dimethyl-4-hydroxy) benzylthiododecane is used. The oil emulsion of the antioxidant (3,5-dimethyl-4-hydroxy) benzylthiododecane can be used to de-fertilize fertilized fish eggs in small aquaculture enterprises to reduce embryonic death of fish due to increased oxidation of the trophic components of the yolk.

Thus, this technical solution meets the criteria of the invention: "novelty", "inventive step", "industrial applicability".

New properties of the antioxidant (3,5-dimethyl-4-hydroxy) benzylthiododecane have been discovered through experimental studies.

The invention is illustrated by example and table.

Example.

Experiments on the study of antiradical and antioxidant properties, conduct Altai mirror carp species on the fish roe of the cyprinid family. Work is performed on industrial equipment in a specialized fish breeding enterprise.

For 2 days before the eggs are taken, females and males of the producer carps are caught (females: age 5-6 years, weight 6.5-7 kg, males: 3-4 years, weight up to 4 kg). Females parenterally (intramuscularly, in the dorsal fin region) are pre-injected with the gonadotropic drug Nerestin-6 at a dose of 0.5 ml / kg. After 12 hours, females and males are given an authorization injection of the above drug. Then, at a predetermined time, the selection of reproductive products is carried out in a known manner, fertilization of the eggs by the dry method and the degumming of the eggs in special apparatuses. Caviar obtained from one female and fertilized by sexual products obtained from one male producer is placed in 2 apparatus for de-sticking. In the first apparatus, de-gluing is carried out with whole milk (control group). In the second apparatus, the degumming is carried out with an oil solution of the antioxidant (3,5-dimethyl-4-hydroxy) benzylthiododecane. The specified solution is prepared by dissolving, for example, 1 g of antioxidant in 100 ml of vegetable oil produced by Altero Golden brand EFKO, followed by adding 400 ml of running water (1: 4) and preparing an emulsion in a homogenizer HomogenizertypeMPW - 302 at 3000 rpm / min at room temperature for 15 minutes

To de-agglomerate the eggs, the prepared emulsion (500 ml) is added to the 8-liter de-agglomeration apparatus. Next, caviar (about 600 g) is added and de-glued for 45 minutes. Further incubation of eggs is carried out in Weiss apparatus in running water with an oxygen content of 7-8 mg / l at a temperature of 22-24 ° C until hatching of the larvae from the eggs. Growing of the prelarvae is carried out in VNIIIPRha apparatuses for 2-3 days. Results are recorded according to the following parameters: embryo survival at different stages of embryonic and larval development.

The measurement results are presented in the table.

According to the table, the survival rate of carp embryos 7 hours after the fertilization of eggs when using antioxidant (3,5-dimethyl-4-hydroxy) benzylthiododecane as a decalcifying solution is 4% higher than when using the antioxidant Thiofan and 12% higher. than in the control group. This trend continues for 30 hours of embryonic development. The total yield of the prelarva from caviar in the group where the oil emulsion of the antioxidant (3,5-dimethyl-4-hydroxy) benzylthiododecane is used is 10% and 22% more than in the group using the prototype method and in the control group respectively (table).

Claims (2)

1. A method of protecting fish in the early stages of ontogenesis by treating with an antiradical agent, characterized in that an oil solution of sulfur-containing antioxidant (3,5-dimethyl-4-hydroxy) benzylthiododecane is used as a de-icing agent for defecated eggs. 2. The method according to claim 1, characterized in that an oil solution of (3,5-dimethyl-4-hydroxy) benzylthiododecane with a concentration of not more than 5 wt.% Is used.