RU2629669C1 - Method of pasturing cultivation and culturing of brine shrimp - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: in the method, from natural reservoir-recipient with mineralization of 30-350 g/l, water and soil are taken. Further, eggs, 30-40% in dry form, the rest in soil moistened with ground, nauplii and adult brine shrimp crustaceans are transported in water tanks. Water from the reservoir-recipient is gradually added to reservoirs in an amount of 30-50% of the total volume and the soil in an amount of 30-50% of the total volume from the reservoir-recipient. Brine shrimp is populated in the reservoir-recipient, the populating is made by adult crustaceans 15-25%, nauplii 15-25%, and eggs 50-70%. Moreover, 60-70% of eggs scatter on the surface of the littoral sections of reservoir with a density of 20000-40000 pcs/m², the rest of eggs is covered with bottom sediments to a depth of 2-4 cm in the coastal zone of reservoir. In the method, the ground is taken from the natural reservoir-recipient, the size of soil fraction is selected, in which the high germination of brine shrimp eggs is noted. Further, a container is filled with soil of this fraction, brine shrimp eggs are introduced into it and the container is buried on the bottom of a natural reservoir-recipient or placed on the shore and fills 20-30% of the water from the recipient reservoir and 70-80% from the brine shrimp reservoir. After hatching nauplii and the development of the crustacean, brine shrimp is released into the reservoir-recipient. In the method, reservoir-recipient with an area of 0.01-10 hectares is equipped and filled with water to 0.15-2 m. At a distance of 0.5-1.5 m from reservoir-recipient a perforated container, with a hole size of 0.5-3 mm, is penetrated, which is filled with soil taken from sites with reservoirs in which the brine shrimp population is present, salt and eggs of brine shrimp are added to the soil in the calculation of 0.8-1.2 g on 1 kg of soil.

EFFECT: methods allow to naturalize brine shrimp in reservoir that acclimatizes with natural reproduction, allow to obtain both embryonic forms of brine shrimp and adult crustaceans, and eggs at all stages of brine shrimp life cycle.

12 cl, 1 dwg

Description

The invention relates to fisheries, namely to the biotechnology of aquaculture and is aimed at increasing the number of crustacean populations - brine shrimp, used as a live starter feed for many fish species.

There are various methods for growing aquatic invertebrate leaf-footed (gill-footed) crayfish Artemia salina (hereinafter referred to as artemia) using aquaculture technology, which can be considered as analogues: in small-sized cages containing habitats, brines of salt lakes, sea water (hereinafter, water, brine) , bring cysts, larvae of brine shrimp, feed, supply air, providing temperature and light conditions, replace water (Ivleva I.V. Biological principles and methods of mass cultivation of food invertebrates. M: Nauka, 1969. - P. 171; a.s USSR 1982 No. 938865, PC A01K 61/00).

Known methods for producing brine shrimp by hatching it from eggs by creating appropriate artificial conditions.

Known application for invention No. 2001129649 published on 08/10/2003. A method of preparing artemia cysts (Artemia salina) for incubation, comprising applying activating substances to the egg shell, characterized in that the artemia eggs are placed in a closed cylindrical container into which they are continuously fed air under pressure from 0.3 to 0.6 atmospheres, providing them with borotage (mixing) and allowing evenly spraying the chemical composition on the surface of the cysts without damaging their shells.

A device for incubating saline brine shrimp eggs is described in patent No. 40841, published October 10, 2004. A device for incubating saline brine shrimp eggs, including vessels for incubating and separating nauplii from cysts, a siphon and a compressor, it is additionally equipped with two platforms, an air chamber with air duct, while the platforms are interconnected with the possibility of placing an air chamber between them and lifting the upper platform at an angle of no more than 50 °, the latter serving as the base of the vessel designed to separate naupli from a cyst, and the compressor is connected by the pipeline with the air chamber.

Known application for invention No. 2003110396, published January 10, 2005. A set of equipment for the industrial production of brine shrimp in artificial tanks using open-loop technology, includes artificial tanks, equipment for additional insolation of containers, laboratory equipment, a centralized aeration system, combined vacuum-electric heating drying plant, etc.

A known method for producing nauplii from crustacean eggs, mainly Artemia salina, is described in patent No. 2346430, published 02.20.2009. The method includes activation and incubation of eggs in saline containing hydrogen peroxide using aeration. In addition, catholyte is added to the saline solution - the cathode fraction of electroactivated water in an amount of 8-10% of the volume of the saline solution; after incubation, the nauplius larvae are kept in a 3% solution containing sodium, potassium, and calcium salts in a ratio of 88: 2: 1, respectively.

Among the known sources, the closest analogue was not identified - the prototype.

In all these sources, an adult crustacean is obtained from eggs in technical apparatuses. Artemia is obtained by hatching it from eggs by creating appropriate artificial conditions, that is, only adult crustaceans from eggs are received, but not the eggs themselves. Eggs are obtained by fishing in natural reservoirs, emptying them by more than 80%, which leads to depletion of the fish food base. Artemia - gill legged crayfish is common in most hyperhaline reservoirs of the Russian Federation, where salinity ranges from 25-400 g / l. Artemia is found in sodium chloride, calcium chloride, magnesium chloride lakes. Water bodies in the south of the West Siberian Plain, East European Plain, and in the south of Central and Eastern Siberia are characterized by long-term fluctuations in water level. Accordingly, the level of mineralization also varies significantly. With a decrease in the water level, as a rule, the salinity of the water increases, and the quantitative ratios of the main ions can change. This leads to a change in the dominant species of aquatic organisms, which include artemia. Artemia in salt water is the dominant species. By lowering the water level, mixing surface water with groundwater, changing the hydrological regime due to surface runoff, contributing to an increase in water mineralization, these reservoirs become suitable for acclimatization and cultivation of brine shrimp in them. Artemia serves as a starter feed for many species of fish grown in aquaculture. The fishery mainly produces Artemia eggs, but the crustacean itself, which is a food for many aquatic organisms, is also valued.

In addition, various extracts are obtained from brine shrimp, which are subsequently used in feed production, cosmetology, bioadditives and other fields.

The objective of the proposed method is to create a method of grazing cultivation and breeding of brine shrimp.

The technical result for all claims is that as a result of the implementation of the inventive method of pasture cultivation and breeding of brine shrimp, it is possible to naturalize brine shrimp in a pond, brine shrimp acclimatizes with natural reproduction, i.e. the implementation of this method provides for the entire life cycle of brine shrimp, which allows you to get both embryonic forms of brine shrimp and adult crustacean, and eggs.

The inventive method can be widely used in many industries, for example, in fish farming as fish feed, in cosmetology for adding to cosmetics, in medicine as a biological additive, etc., therefore, meets the criterion of "industrial applicability".

From the totality of known sources, a method is not known that includes all the essential features of the claimed invention, therefore, the method of pasture cultivation and breeding Artemia is inherent in "novelty."

Due to the fact that according to the first paragraph of the formula, according to the invention, the method of pasture cultivation and breeding of brine shrimp is that water and soil are taken from a natural recipient reservoir with a salinity of 30-350 g / l, then eggs are transported 30-40% per dry, the rest moistened with soil, nauplii and adult brine shrimp brine shrimp in tanks with water, water is gradually added to the tanks from the recipient reservoir in the amount of 30-50% of the total volume and soil in the amount of 30-50% of the total volume of the reservoir -recipient, further pr Artemia plagued indwelling in the recipient reservoir, accommodation is made adults crustaceans 15-25%, 15-25% and nauplii eggs 50-70%, and 60-70% of the eggs dispersed on the surface of the reservoir intertidal areas 20000-40000 density Pieces / ^m2, the rest of the eggs are filled up with bottom sediments to a depth of 2-4 cm in the coastal zone of the reservoir, it is possible to naturalize artemia in the reservoir, artemia acclimatizes with natural reproduction, i.e. the implementation of this method provides for the entire life cycle of brine shrimp, which allows you to get both embryonic forms of brine shrimp and adult crustacean, and eggs.

Due to the fact that according to the second claim, according to the invention, the method of grazing and breeding brine shrimp consisting in the fact that soil is taken from a natural reservoir-recipient, the size of the soil fraction is selected, in which a large germination of artemia eggs is noted, then the soil is filled with such a fraction container, artemia eggs are introduced into it and the container is buried at the bottom of the reservoir or installed on the shore and filled with 20-30% of the water from the recipient reservoir and 70-80% from the reservoir of the artemia donor, after hatching For development and development of the crustacean, Artemia is released into the recipient reservoir and / or according to claim 3 fill 30-50% of the soil of the selected fraction from the recipient reservoir and 70-50% of the soil of the selected fraction from the donor reservoir and / or according to paragraph 4 c a container with soil is added at a rate of 0.8-1.2 g per 1 kg of soil, and / or according to claim 5, the container is made with perforated walls with a hole size of 0.5-3 mm, and / or according to claim 6 after introducing eggs into the container add ice the container manages to naturalize artemia in a pond, artemia acclimatizes with natural reproduction, i.e. the implementation of this method provides for the entire life cycle of brine shrimp, which allows you to get both embryonic forms of brine shrimp and adult crustacean, and eggs.

Due to the fact that according to the seventh claim, according to the invention, the method of pasture cultivation and breeding of brine shrimp consists in equipping a recipient reservoir with an area of 0.01-10 ha and filling it with water at 0.15-2 m at a distance of 0.5- 1.5 m from the recipient’s reservoir, a perforated container with a hole size of 0.5-3 mm is buried into which it is filled with soil taken from areas with reservoirs in which the artemia population is present, and the size of the soil fraction is preselected, in which a large germination of artemia eggs is noted , d Then a container is filled with soil of such a fraction, salt is added to the soil at a rate of 0.8-1.2 g per 1 kg of soil and brine shrimp eggs, after hatching of nauplii and the development of the crustacean, the brine shrimp is released into the recipient reservoir, and / or according to claim 8 - the recipient is equiped at a distance of up to 500 m from a reservoir having conditions for growing brine shrimp and is connected by an artificial channel or a system of pipelines with a pump with a natural reservoir having conditions for growing brine shrimp, and / or according to claim 9, the recipient reservoir is arranged on salt marshes or solonetzes, containing in water extracting at least 0.5% of the dry residue of water-soluble salts and fill with water from an underground source, and / or according to p. 10 waterproofing material is laid on the bottom of the recipient reservoir, and soil is poured on top, and / or according to p. 11, soil is periodically loosened in a pond, and / or p. 12 after adding eggs to the container add ice.

Thus, we can conclude that the proposed technical solution meets the criterion of "inventive step".

The method of pasture cultivation and breeding of brine shrimp is implemented as follows.

The method of pasture cultivation and breeding of brine shrimp is implemented in several versions, according to the first independent claim, the method of pasture cultivation and breeding of brine shrimp is implemented in natural reservoirs under favorable environmental conditions. A favorable, optimal environment for artemia is described in detail in the following sources: Studenikina T.L. Artemia salina in lakes of Western Siberia - as a starting feed for juvenile whitefish and cyprinids. // Biological foundations of fisheries in Western Siberia. - Novosibirsk: Nauka, 1983. - C 56-62; Solovov, V.P., Novoselov V.A. Gill-footed crustacean Artemia. // Fish farming and fishing. - 2000. - No. 1 - S. 30.

Pre-natural reservoirs explore:

- the chemical composition of water, bottom sediments and adjacent areas of the soil;

- by the presence of organic matter and food supply for brine shrimp;

- by the presence in the reservoir of brine shrimp, or the possibility of growing brine shrimp in these conditions.

For the introduction of Artemia are suitable in reservoirs with a salinity of 30-350 g / l. If, according to preliminary studies, the environmental conditions were favorable, transportation to the place and the introduction of Artemia eggs is carried out. The introduction of brine shrimp into the recipient reservoir must be made from different donor reservoirs. Acclimatization of cysts from different donor ponds leads to an increase in the number of brine shrimp and its adaptive characteristics, which in the future allows to obtain more variable natural cultures for further re-acclimatization and expansion of the range. Artemia is transported in reservoirs with soil and water from a donor reservoir; water is gradually added to reservoirs in an amount of 30-50% of the total volume from a reservoir where the introduction of Artemia (recipient reservoir) is planned. Part (30-40%) of the eggs is transported in dry form, part (60-70%) in moist. Eggs transported with soil are also mixed with bottom sediments in the amount of 30-50% of the total volume from the recipient reservoir, into which it is planned to launch brine shrimp.

The introduction is made by adult crustaceans 15-25%, nauplii 15-25% and eggs 50-70%. This contributes to the development of a complex of adaptations of Artemia at all stages of ontogenesis for the quickest acclimatization and naturalization of the crustacean in new environmental conditions. Artemia eggs are introduced in the littoral zone with water temperatures of 15-20 ° С. It is necessary to scatter 60-70% of the eggs on the surface of the littoral sections of the reservoir with a density of 20,000-40000 pcs / m ² . The rest of the eggs must be covered with bottom sediments to a depth of 2-4 cm in the coastal zone of the reservoir. Adult crustaceans and nauplii brine shrimp are released into the pond along with water.

At low mineralization values and the absence of adult crustaceans, one egg is allowed to be launched (for example, Gorkoye Lake, Troitsky District, Chelyabinsk Region). In cases of withdrawal of artemia cysts from the reservoir in the amount of more than 80%, compulsory acclimatization of brine shrimp and the launch of eggs with a thick shell are carried out to hatch in subsequent years and replenish the population.

To improve the conditions for the release of brine shrimp from eggs, create a system of artificial aeration of water.

It is advisable to start in the morning. Egg laying occurs in two phases: spring-summer and autumn. If the eggs are represented by forms with a thick shell comprising more than 50% of the frequency of occurrence, then they must be launched into the reservoir in the autumn period for the nauplii to come out next year. If a large part is represented by eggs with a thin shell, then they are launched into natural reservoirs in the spring-summer period. The eggs are scattered by the strainer from the boat. The introduction of nauplii brine shrimp in the spring is also permissible. Long-term planting and introduction of eggs and adult Artemia crustaceans into a reservoir is carried out in accordance with the density characteristics described above. In case of subsequent removal from the reservoir 100% of Artemia eggs, appropriate volumes of introduction are necessary. In multi-year mode, it is necessary to launch eggs, both with a thick and a thin shell.

According to the second independent claim, the method of pasture cultivation and breeding of brine shrimp is implemented in natural reservoirs under adverse environmental conditions.

To explain the method of pasture cultivation and breeding of brine shrimp, a figure is presented which shows: container 1 with perforation 2 (holes) buried in soil 3 (bottom sediments with particles, fractions of various sizes) 3 and filled with soil with particles of the same fraction 4 with artemia eggs introduced 5.

Adverse environmental conditions are: insufficient salt concentration or inappropriate ion composition, low oxygen concentration.

In practice, the introduction of brine shrimp, carried out by direct landing in a pond with adverse environmental conditions, leads to a high mortality of the infested material, which amounts to 90%. The additional technological measures that we offer allow us to achieve a reduction in mortality during the introduction of brine shrimp.

To implement the method according to the second embodiment, the soil is taken from the recipient reservoir. This method involves the use of containers with the introduction of appropriate soil and water for the cultivation and breeding of brine shrimp. A prerequisite for the use of containers is preliminary soil preparation. Before placing the soil in a container, it is sieved through particle size sieves with fractions of 0.05 mm, 0.1 mm, 0.5 mm and 1 mm. Each container contains a separate fraction with a layer height of at least 5 mm. Next, an observation is made of the greater germination of brine shrimp eggs in containers with a certain fraction size.

After it has been revealed that eggs are more germinated on a particular soil fraction, the necessary soil fraction is prepared for further intensification of the nauplii exit from the eggs. The best way to acclimatize is to prepare containers in which 30-50% of the soil from the recipient reservoir of the required fraction, 70-50% of the soil from the donor reservoir of the required fraction and Artemia eggs are used, or in the case when the soil is used only from the recipient reservoir, a container with soil is added salt in the calculation of 0.8-1.2 g per 1 kg of soil.

Eggs are distributed in containers with a higher concentration near the walls. Containers with a diameter of 30-50 cm are installed in recesses at the bottom of the recipient reservoir at a distance of at least 2 meters from each other, so that the containers are completely covered with water. At low temperatures, the containers are completely immersed in water, are made with solid side walls, to reduce the speed of the currents and the fastest heating of the water. To increase the aeration intensity at an optimum temperature, holes are made in the side walls. Holes are made from 0.5 to 3 mm in size depending on the granulometric composition of the soil, so that soil particles do not pass through the holes. To increase the mineralization of water, it is necessary to add finely dispersed soil to a ratio of 40-50% soil and 50-60% water. After saturation of water with salts, part of the soil must be removed. Acceleration of the breeding rate is carried out with the help of melt ice, which is brought to the reservoir in thermo containers. Ice must be introduced into the container at a salt concentration of at least 60 g / l. Meltwater helps to intensify the exit of larvae from eggs and increases the productivity of the development of phytoplankton, which is the main food item of brine shrimp.

If in the soil with different fractions a low germination rate of Artemia eggs was revealed, then Artemia is cultivated in containers with water on land. Soil from the recipient reservoir and brine shrimp eggs are placed in containers, 20-30% of the water from the recipient reservoir and 70-80% of the water brought from the donor reservoir, from where the brine shrimp eggs were taken, are filled with containers. Eggs are distributed in containers with a higher concentration near the walls. Containers with a diameter of 30-50 cm, are installed on land. Then, after hatching, Artemia is infused into the recipient reservoir.

If the reservoir is characterized by salinity of more than 350 mg / l, when examining the reservoir according to the food supply and chemical indicators of water and soil, the technology of growing Artemia crustaceans with reproduction in a number of artificial reservoirs created is implemented.

According to the seventh independent claim, the method of pasture cultivation and breeding of brine shrimp is implemented in artificial reservoirs.

The preparation of artificial reservoirs can be carried out near natural reservoirs by creating ponds and draining water from a nearby reservoir with conditions suitable for growing brine shrimp.

Also, artificial reservoirs can be created far from natural reservoirs, salt marshes and solonetzes are suitable for creating such artificial reservoirs, filling the artificial reservoir-recipient with water is carried out from an underground source. Soils suitable for grazing and breeding brine shrimp far from natural bodies of water should contain at least 0.5% solids in the water extract. Most preferred are salt marshes containing more than 1% solids solids. To create a separate artificial reservoir in a distance from a natural reservoir, geological exploration is carried out with the search and determination of suitable sites and with the compilation of a hydrogeological map. The landscape, soil composition, salt mineralization, parent rocks, groundwater, etc. are investigated. and a site is defined that allows you to create an artificial body of water on a land landscape. The primary criterion of this method is the mineralogical, organic and granulometric composition of soils, when water gets on them, an optimal environment is created for the development of brine shrimp.

At a distance of up to 500 m from reservoirs with conditions suitable for growing artemia, or separately, in a suitable area, a pond (recipient reservoir) with an area of 0.01 to 10 ha is excavated to fill 0.15-2 m with water. This artificial pond (reservoir - the recipient) is filled with water using an artificial channel or a system of pipelines from a natural reservoir, which has the conditions for growing brine shrimp, or from a well. At the same time, the depth of the recipient reservoir can be increased to the level necessary for the flow of water from a natural reservoir. Artemia cultivation in artificial conditions also implies the use of containers with holes for the penetration of salts and clay minerals, providing water with appropriate mineralization. At a distance of 0.5 m to 1.5 m from the pond, it is also dug up also filled with water, into which a container with soil is installed. A prerequisite for the use of containers is the preliminary preparation of soil taken from areas near water bodies in which there is a population of brine shrimp. Before placing the soil in a container, it is sieved through particle size sieves with fractions of 0.05 mm, 0.1 mm, 0.5 mm and 1 mm. Each container contains a separate fraction with a layer height of at least 5 mm. Next, an observation is made of the greater germination of brine shrimp eggs in containers with a certain fraction size.

After it has been revealed that eggs are more germinated in a particular fraction, the necessary fraction is prepared to further intensify the yield of nauplii from eggs. The best way to acclimatize is to prepare containers in which the soil is placed from a reservoir where artemia and artemia eggs are present. Eggs are distributed in containers with a higher concentration near the walls. Holes are made in the side walls of the container at a distance of at least 0.05 m from the bottom of the container, and the soil, in turn, is poured at a higher level. Holes are made from 0.5 to 3 mm in size depending on the granulometric composition of the soil, so that soil particles do not pass through the holes. The above containers are loaded with soil taken from areas located next to the lakes in which Artemia is found. After loading the soil into containers, it is necessary to add salt in the calculation of 0.8-1.2 g per 1 kg of soil mass, which prevents the outflow of water from the container. Artemia eggs are distributed in containers with a higher concentration near the walls. The container on top, in some cases, must be covered with a lid in the form of a fabric or plastic film to cool or increase the temperature of water, respectively, and to prevent evaporation. Acceleration of the breeding rate is carried out with the help of melt ice, which is brought to the reservoir in thermo containers. Ice must be introduced into the container at a salt concentration of at least 60 g / l. Meltwater helps to intensify the exit of larvae from eggs and increases the productivity of the development of phytoplankton, which is the main food item of brine shrimp. In a container of eggs, nauplius hatch and then develop into adults. The introduction of adult crustaceans from a container into an artificial reservoir is carried out directly.

To increase egg production by artemia in an artificial pond, it is necessary to reduce the oxygen concentration. If the area of the reservoir is small, it is covered with plastic wrap. With a large area of artificial reservoirs, loosening of bottom saline sediments is used, which contributes to an increase in the salinity of reservoirs and an increase in the frequency of cyst masonry. Salinity for the formation of cysts ranges from 50-270 g / l, the optimal range lies in the range of 100-200 g / l. The soil can be salted with various water-soluble salts: NaCl, MgCl ₂ , CaCl ₂ , Na ₂ SO ₄ , MgSO ₄ , Na ₂ CO ₃ , NaHCO ₃ . When Na and bicarbonates dominate in the soil, a change in the pH of the aqueous medium is possible. To neutralize the acidic environment, calcium carbonate, quicklime and slaked lime, gypsum are used. To reduce the pH of the alkaline environment, the introduction of acidic organic materials is necessary

- needles, rotted sawdust, horse peat, oak leaves.

In the presence of more than 50% of thick-walled Artemia eggs, fresh water is poured into an artificial pond or container in the amount of 20% or more. If more than 80% cysts are present, ice must be added to an artificial pond or container.

The most important stage is the preparation of sites for artificial reservoirs-recipients in various landscapes to fill with water. The bottom of the site should be flat, without bumps to further optimize the artemia fishing. Depending on the planned fishing gears, it is necessary to select appropriate sites for filling with water. In this case, you can use the rules and instructions for creating ponds. However, artificial reservoirs for growing brine shrimp in their structure should occupy a middle position between fish ponds and rice cakes. That is, if necessary, it is possible to use enclosing shafts to retain water and the height of the water level can not exceed 15-20 cm. Deep basins can be used to grow brine shrimp only to create a hydrological network when connected to a natural reservoir. Shallow depth contributes to the fastest heating and cooling, which contributes to an increase in the productivity of phytoplankton. Before drilling a well and creating artificial reservoirs, it is necessary to establish the chemical composition of groundwater and the structure of deposits of soils and parent rocks. In the case of high drainage and water leakage from the surface layers to the underlying horizons, it is advisable to use polyethylene platforms on which soil (soil) is laid before filling with water. The area of such artificial reservoirs is unlimited and is determined by the volume of groundwater, the level of drainage of the parent rocks and the permissible volumes of artificial materials (polyethylene, polypropylene, etc.).

The creation of artificial aeration of water improves the conditions for the release of brine shrimp from eggs. In the case of creating large-sized artificial ponds, it is necessary to connect them with a natural body of water in such a way that a stream of water flows through the cascade of ponds, which will increase the aerophilicity of conditions. Hydro aerators can also be used to increase the oxygen concentration in water.

Claims (12)

1. The method of pasture cultivation and breeding of brine shrimp, which consists in the fact that water and soil are taken from a natural recipient reservoir with a mineralization of 30-350 g / l, then eggs are transported 30-40% in dry form, the rest is moistened with soil, of nauplii and adult brine shrimp in water reservoirs, water from the recipient reservoir in the amount of 30-50% of the total volume and soil in the amount of 30-50% of the total volume from the recipient reservoir are gradually added to the reservoirs, then the brine shrimp is introduced into the reservoir recipient, introduction about zvoditsya adults crustaceans 15-25%, 15-25% and nauplii eggs 50-70%, and 60-70% of the eggs dispersed on the surface of the reservoir intertidal areas 20000-40000 density pc. / m ^2, the rest of the egg is filled to a depth of bottom sediments 2-4 cm in the coastal zone of the reservoir. 2. The method of pasture cultivation and breeding of brine shrimp, consisting in the fact that soil is taken from a natural reservoir-recipient, the size of the soil fraction is selected, in which a large germination of the brine shrimp eggs is noted, then a container is filled with the soil of this fraction, the brine shrimp and the egg are brought into it it is buried at the bottom of the natural recipient reservoir or is set ashore and filled with 20-30% of the water from the recipient reservoir and 70-80% from the artemia donor reservoir, after hatching of nauplii and the development of the brine shrimp camping in the reservoir recipient. 3. The method of pasture cultivation and breeding of brine shrimp under item 2, characterized in that the container is filled with 30-50% of the soil of the selected fraction from the recipient reservoir and 70-50% of the soil of the selected fraction from the donor reservoir. 4. The method of pasture cultivation and breeding of brine shrimp according to claim 2, characterized in that salt is added to the container with soil at a rate of 0.8-1.2 g per 1 kg of soil. 5. The method of pasture cultivation and breeding of Artemia according to claim 2, characterized in that the container is made with perforated walls with a hole size of 0.5-3 mm. 6. The method of grazing and breeding brine shrimp according to claim 2, characterized in that ice is added to the container after the eggs have been introduced. 7. The method of pasture cultivation and breeding of brine shrimp, which consists in equipping a recipient reservoir with an area of 0.01-10 ha and filling it with water at 0.15-2 m, at a distance of 0.5-1.5 m from the recipient reservoir a perforated container with a hole size of 0.5-3 mm is buried, which is filled with soil taken from areas with water bodies in which the artemia population is present, and the size of the soil fraction is selected first, in which a large germination of artemia eggs is noted, then the container is filled with soil of such a fraction , bring into the ground salt is calculated at a rate of 0.8-1.2 g per 1 kg of soil and brine shrimp eggs, after hatching nauplii and the development of the crustacean, brine shrimp is released into the recipient reservoir. 8. The method of pasture cultivation and breeding of brine shrimp according to claim 7, characterized in that the recipient reservoir is arranged at a distance of up to 500 m from the reservoir having the conditions for growing brine shrimp, and connect it with an artificial channel or pipe system with a pump with a natural reservoir having conditions for growing artemia. 9. The method of pasture cultivation and breeding of brine shrimp according to claim 7, characterized in that the recipient pond is equipped with salt marshes or solonetzes containing in the aqueous extract at least 0.5% of the dry residue of water-soluble salts, and filled with water from an underground source. 10. The method of pasture cultivation and breeding of brine shrimp according to claim 7, characterized in that waterproofing material is laid at the bottom of the recipient reservoir, and soil is poured on top. 11. The method of pasture cultivation and breeding of brine shrimp under item 7, characterized in that it is carried out periodic loosening of the soil in the reservoir. 12. The method of grazing and breeding brine shrimp according to claim 7, characterized in that ice is added to the container after the eggs have been introduced.

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