RU2685395C1 - Device for salmon fish artificial reproduction in conditions of river flow - Google Patents

Abstract

FIELD: fishing and fish farming.SUBSTANCE: device includes a nest-incubator, which consists of a housing with caviar cells, buried in the bottom soil and a filtering spillway located behind it in the course of the flow. A dual-slop perforated lid is fixed between the front and back walls of the housing at angles from 20 to 40°. At the top of the lid there is a gap width of 0.8 to 1.0 cm to the edges of the slit transverse plates are attached, the first of which in the course of the river exceeds the height of the second. A fish-holding net is installed under the nonwatertight substrate. On the perforated lid, under the case of the incubator nest and under the filter spillway, a layer of large and medium pebbles is laid, with a filtration coefficient exceeding the filtration coefficient of the river bed soil.EFFECT: invention provides high output of robust larvae.7 cl, 3 dwg

Description

The invention relates to fish farming and can be used in the artificial reproduction of salmon in river flow conditions.

A device (RU No. 166308, Cl.A01K61 / 00, 2016) is known for incubating salmon caviar of the genus Salmo and Oncorhynchus in rivers, including a body with a solid bottom and an incubation substrate, a water intake device located on the front sides of the body, supplying purified water underflow flow into the housing, the outlet mounted on the rear side of the housing. The incubation substrate divides the housing into lower and upper parts. The incubation substrate is made of a profiled mesh with a mesh size from 3.0 to 7.5 mm (depending on the size of the incubated caviar), formed in the form of a wavy profile with the formation of trays located in steps from each other from 15.0 to 25, 9 mm and wave height from 7.5 to 12.5 mm, while the trays of the profiled mesh are directed towards the outlet nozzle. In addition, the incubation substrate is made in the form of rows of profiled nets in an amount of from 2 to 10 located one above the other, with the formed waves of each underlying grid arranged in a checkerboard pattern. Before the incubation substrate, a fish retaining mesh is installed.

The presence of the outlet nozzle of this configuration in the known device makes it difficult for the larvae to enter the river flow. This is especially true for the lower trays of the incubation substrate, the outlet nozzles for the exit of the larvae of which are at a great depth. With increased device dimensions (linear dimensions - length and width), the larvae often do not find the entrance to the outlet nozzle, which leads to their death. Trays made of profiled net are directed toward the outlet nozzle, which is why at low speeds of flow the larvae can move both toward the exit nozzle and in the opposite direction to the fish retaining net. The space between the bottom and the incubation substrate forms a settling tank with rigid boundaries (walls). When it overflows, silting of the incubation substrate and caviar is possible, due to which the yield of viable larvae is quantitatively reduced.

A device is known for incubating salmon roe in rivers (RU # 147950, Cl. А01К61 / 00, 2014), which includes a body with a solid bottom and an incubation substrate in the form of a plate with holes, with gratings closed at the bottom. One well is placed in each well. The plate divides the case into the lower part (a settling tank in which water is purified) and the upper (accumulative) chamber. On the front side of the case, there is a water intake device, in which purification from sediment of river water takes place. At the top of the accumulation chamber, an outlet is installed to release the larvae into the river flow.

The prototype of the invention is a device for the artificial reproduction of salmon fishes under natural conditions of a river flow (RU No. 2646894, Cl. А01К61 / 00, 2018), including a incubator nest consisting of a housing with an incubating permeable substrate formed with a wavy net profile with the formation of trays and filter spillway, mounted in front of the case. The housing of the incubator nest is recessed in such a way that the upper part of the vertical walls is located at the level of the base of the filter weir. The front and rear walls of the case are made perforated, and the side walls are solid. An apron is fixed below the side and rear vertical walls, forming an external angle to them from 45 to 50 ^o . Trays incubation permeable substrate oriented perpendicular to the flow and made of permeable flexible covering material located on the rods abutting the side walls of the housing. A covering layer is located above the incubation permeable substrate.

However, this device is not effective enough in rivers with a high content of sediment due to the impossibility of creating stable hydraulic conditions inside the incubator nest, which negatively affects the efficiency of release of resilient larvae of salmon species. In addition, increasing the size of the device worsens the conditions for the larvae to exit the incubator nest into the river stream due to a decrease in the flow rate in the incubator nest and the uneven flow of water to the eggs with reverse currents, which makes it impossible for the larvae to orient in a complex hydraulic structure currents. When drift sediment filtering drift possible increase in flow rate with increasing water mark above the ridge.

A technical problem of the invention is the modification of the nest-incubator design for artificial reproduction of salmon fishes in a river stream, which has stable and favorable for incubation of caviar hydraulic conditions adapted to different hydrological conditions of rivers, including streams with a high sediment content.

The technical results of the invention is to improve the efficiency of spawning and release of resilient larvae of salmon species.

The technical result is achieved by the fact that the device for artificial reproduction of salmon fishes in river flow conditions includes a nest – incubator embedded in the ground of the bottom of the river flow, consisting of a body with an incubation permeable substrate with cells for placing eggs in them, and a filter spillway. According to the invention, in the case above the incubation substrate between the frontal and rear walls there is a dual sloped perforated cover at angles to the walls from 20 to 40 °. In the upper part of the perforated cover, a slot is formed with a width of 0.8 to 1.0 cm. The edges of which are attached to transverse plates, the first of which, along the course of the river, exceeds the second plate in height. A fish retaining mesh is installed under the permeable substrate. Filter spillway is located behind the nest-incubator along the course of the river. For drainage on a perforated lid, under the case of the incubator nest and under the filter weir, a layer of medium pebbles (1.5–2.5 cm) is laid with a filtration coefficient exceeding the filtration rate of the river bed soil.

The first transverse plate of the perforated cover along the flow of the river exceeds the second plate by 1 cm in height.

The case of the incubator nest is buried in the bottom of the river in such a way that the first transverse plate is 1 cm above the bottom level along the course of the river, and the second plate is set at the bottom level.

The diameter of the perforation holes of the lid is from 0.3 to 0.5 cm, and the distance between the centers of the holes is 0.8 - 1.5 cm.

The height of the walls of the incubator nest should be from 5.0 to 3.0 cm.

Under the case of the incubator nest and under the filtering weir, it is advisable to lay large pebbles in the in-depth from 10 to 15 cm of the river bed, which serves as a drainage channel.

The drainage channel can also be made in the form of a pipe with openings on the side of the fish retaining net located under the incubator nest, connected to the pipe located under the filter weir, the open end of which is placed at the bottom of the river bed.

The location of the incubator nest in front of the filter spillway allows you to direct the flow of water from top to bottom and thus prevent the removal of eggs from the cells.

The height of the walls of the nest-incubator from 5.0 to 10.0 cm is determined by the creation of favorable conditions for the release of larvae from the extreme cells. Making holes in the perforated cover with dimensions (diameter from 0.3 to 0.5 cm and distance between the holes 0.8 to 1.5 cm) ensures premature release of larvae into the river bed before resorption of the yolk sac. At the same time, enough water passes through the perforated cover, which ensures the orientation of the larvae relative to the two halves of the cover, the removal of waste products through the fish retaining mesh and further along the drainage channel or pipe beyond the limits of the filter weir.

The angle of the perforated halves of the cover ranges from 20 ° to 40 °, which ensures the concentration of the larvae in the area of the outlet, and through the slit with a width of 0.8 to 1.0 cm, they exit to the stream. In the area behind the front rectangular plate, favorable hydraulic conditions are created for the larvae to enter the stream. The angle of inclination of the halves of the filtering cap less than 20 ° will not ensure the concentration of larvae in front of the slit, and at an angle of more than 40 ° the height of the incubator nest will increase, which will require its significant deepening.

Creating a drainage channel under the incubator nest, from soil particles, with a filtration coefficient higher than in the river bed, allows for the formation of sufficient flow through to deliver oxygen and remove waste products of embryos and larvae. Placing the incubator nest at a depth of 25–35 cm corresponds to the depth of the natural salmon nest.

A device for the artificial reproduction of salmon fishes in a river flow conditions is illustrated by drawings, where in FIG. 1 shows a longitudinal section through the incubator nest; in fig. 2 is a longitudinal section of the device; in fig. 3 is a longitudinal section of the device with a pipe that leads the stream under the stream beyond the spillway.

A device for artificial reproduction of salmon fish in river flow conditions includes an incubator nest embedded in the bottom of the river flow, consisting of a body, the wall height of which is 2 to 3 cm. Incubation permeable substrate 1 with cells 2 for placing eggs is installed in the body 3. In the case above the incubation substrate 1 between the front 4 and rear 5 walls, a gable perforated cover 6 is fixed, consisting of two halves fixed at angles to the walls 4 and 5 at an angle ά from 20 to 40 . The diameter of the perforation holes of the lid 6 is from 0.3 to 0.5 cm, and the distance between the centers of the holes is 0.8-1.5 cm. In the upper part of the perforated lid 6, a slit 7 is formed, with a width of 0.8 to 1.0 cm The edges of which are attached transverse plates 8 and 9. Plate 8, located along the course of the river exceeds the height by 1 cm of the second plate 9. Under the permeable substrate 1 fish retaining net 10 is installed. Filter spillway 11 is located behind the incubator nest along the course of the river. For an even supply of water to the eggs on the perforated lid 6 a layer of medium (2.5–5.0 cm) pebbles 12 is laid. A layer of coarse (5.0–10.0 cm) and medium (2.5) layers is laid under the case of the incubator nest. –5.0 cm) of pebbles 13, and under the filter spillway 11 a layer of pebbles of the same size is laid 14. The filtration coefficient of large and medium pebbles exceeds the filtration coefficient of the river bed soil. The housing of the incubator nest is buried in the bottom of the river in such a way that the transverse plate 8 is 1 cm above the bottom level and the plate 9 is set at the bottom level. Pebbles under the case of the nest-incubator and under the filter spillway 11 are laid in a recess made in the river bed (not shown in Fig.) Whose depth is from 10 to 15 cm. Pebbles laid in the recess serves as a drainage channel. The drainage channel can also be made in the form of a pipe 15 (Fig. 3) with openings on the side of the fish retaining mesh 10 located under the incubator nest. The pipe 15 is connected to the pipe 16, located under the filter weir 11, the open end 17 of which is displayed at the bottom of the river bed to ensure the movement of the sub-stream flow.

The device works as follows.

Before you install the incubator nest, a section of the riverbed is deepened by 10-15 cm, taking into account the dumping in larger fractions under the nest case - the incubator and the filter spillway. Next, the coarse and medium fractions of pebbles fall asleep, creating a drainage channel for the sub-stream flow. The eggs 2 are placed in the cells 2, the top is closed with a double-sided cover 6 with the formation of a slit 7 with a width of 0.8 to 1.0 cm. The device is placed on the prepared surface of large fractions and the incubator nest is filled in so that the back cover 6 is on one mark to the bottom of the river. Behind the nest construct filtering spillway 11.

Filter spillway 11 creates a drop in water levels, due to which the movement of the sub-stream flow occurs. The water filtered through the lid 6 passes through the cells 2, flowing around the eggs 3, delivering oxygen and removing waste products. Next, the water in the "pipe" is diverted for filter spillway 11. After the appearance of the larvae, they are for some time within the incubator nest. Then the larvae rise up, orienting against the current, Reaching the perforated lid 6, due to the tilting of the lid 6, the larvae concentrate in the area of the slit 7 and ascend along it upward, then go to the stream on their own. The design of the exit section creates favorable hydraulic conditions (small speeds) in the initial life of the larva.

The device is easy to manufacture and use. Experiments with the claimed device showed a high viability of the larvae and a high percentage of larvae entering the river flow.

The device is at the stage of industrial tests, which are carried out on the Suna and Ulmasen-Yoki River (Republic of Karelia).

Claims (7)

1. Device for artificial reproduction of salmon fish in river flow conditions, including a nest-incubator buried in the ground of the river flow, consisting of a body with incubation water-permeable substrate with cells for placing eggs in them and filtering weirs, characterized in that in the body above the incubation a double-punched perforated cover is fixed with a substrate between the frontal and rear walls, at angles to the walls from 20 to 40 °, in the upper part of the perforated cover there is a gap of 0.8 to 1 width, 0 cm, to the edges of which transverse plates are attached, the first of which is higher than the second one along the course of the river, a fish retaining net is installed under the permeable substrate, the filter weir is located behind the incubator nest along the course of the river, while for drainage on the perforated lid, under the body of the incubator nest and a layer of large and medium pebbles are laid under the filtering weir, with a filtration coefficient exceeding the filtration coefficient of the river bed soil. 2. The device according to claim 1, characterized in that the first along the course of the river the transverse plate of the perforated cover exceeds the second plate in height by 1 cm. 3. The device according to claim 1, characterized in that the housing of the nest-incubator is sunk into the bottom of the river in such a way that the first transverse plate is 1 cm above the bottom level and the second plate is set at the bottom level. 4. The device according to claim 1, characterized in that the diameter of the perforation holes of the lid is from 0.3 to 0.5 cm, and the distance between the centers of the holes is 0.8-1.5 cm. 5. The device according to claim 1, characterized in that the height of the walls of the incubator nest is from 5.0 to 10.0 cm. 6. The device according to claim 1, characterized in that under the case of the nest-incubator and under the filter spillway, large pebbles are laid in the in-depth from 10 to 15 cm of the river bed, which acts as a drainage channel for the sub-stream. 7. The device according to p. 6, characterized in that the drainage channel is made in the form of a pipe with holes from the fish retaining net located under the incubator nest connected to the pipe located under the filter spillway, the open end of which is displayed at the bottom of the river bed.

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