RU166308U1 - DEVICE FOR INCUBATION OF CAVIAR OF SALMO AND ONCORHYNCHUS SALMO FISH IN RIVERS - Google Patents

Abstract

1. A device for the incubation of salmon roe of the Salmo and Oncorhynchus genus in rivers, comprising a body with a continuous bottom and an incubation substrate separating the body into the lower and upper chambers, a water intake device located on the front side of the body, supplying purified water to the body, an outlet pipe, mounted on the back of the case, characterized in that the incubation substrate is made of a profiled mesh with a mesh size from 3.0 to 7.5 mm, molded in the form of a wavy profile with the formation of trays, located increments apart from 15.0 to 25.0 mm and a wave height of 7.5 to 12.5 mm, while the profiled grid trays directed towards the outlet patrubka.2. The device according to claim 1, characterized in that the incubation substrate is made in the form of rows of profiled grids located one below the other, while the formed waves of each underlying mesh are staggered. The device according to claim 2, characterized in that the number of rows of profiled grids in the incubation substrate is from 2 to 10.4. The device according to claim 1, characterized in that a fish-retaining mesh is installed in front of the incubation substrate.

Description

The utility model relates to fish farming and can be used in the reproduction of salmon fish of the genus Salmo and Oncorhynchus in rivers.

A device is known (RU No. 110229, CL. A01K 61/00, 2005), consisting of a cylindrical body in which the camera is located. The top of the camera is closed by a lid. The body is made with a solid bottom. Inside the body there is an artificial incubation substrate, combined with a perforated tray in the form of a plate with holes, to accommodate fertilized eggs in them. A hole is made under the plate in the housing from the front side. A nozzle is attached to the lid to exit the larvae from the device. One egg is placed in one hole. The bottom of each hole is perforated. In front of the hull, in the soil of the river bed, upstream, a water intake is installed, connected by a flexible tube to the hull. The water intake is made with a perforated front wall, the perforation holes of which are smaller than the smallest particles of the soil of the channel.

The disadvantages of this device include the possible removal of eggs from the holes during the immersion of the device to the bottom of the river, as well as during the passage of the river unaccounted for large water consumption. In addition, in this device, when a water stream passes through the plate behind the eggs, vortex zones are formed due to the complex hydraulic structure, which does not allow the oxygen to be delivered efficiently and the vital products of embryos to be carried out, which negatively affects the incubation process and larvae survival.

The prototype of the device proposed for registration is a device for the incubation of salmon caviar in rivers (RU No. 147950, Cl. A01K 61/00, 2014), including a body with a continuous bottom and an incubation substrate in the form of a plate with holes with a perforated bottom for placement in eggs, dividing the housing into the lower and upper storage chambers, a water intake device supplying purified water to the upper chamber and located on the front side of the housing, an outlet pipe mounted on the rear side of the device.

The disadvantage of this device is the low throughput of perforations in the wells, which does not provide an effective delivery of oxygen to the eggs and removal of waste products from them.

The objective of the utility model is to improve the hydraulic characteristics in the flow part of the device by increasing the culvert capacity of the incubation substrate, increasing the rate of oxygen delivery to the eggs and removal of waste products outside the device, creating optimal conditions for the larvae to exit the device.

The technical result of the utility model is to increase the yield of viable larvae from devices by improving the conditions for incubation of salmon roe of the genus Salmo and Oncorhynchus and.

The task and the specified technical result is achieved by the fact that the device for the incubation of salmon roe of the Salmo and Oncorhynchus genus in rivers includes a body with a continuous bottom and an incubation substrate separating the body into the lower and upper chambers, a water intake device located on the front side of the body, feeding purified water into the housing; an outlet pipe mounted on the rear side of the housing. According to a utility model, the incubation substrate is made of a profiled mesh with a mesh size from 3.0 to 7.5 mm, molded in the form of a wavy profile with the formation of trays, spaced from each other from 15.0 to 25.0 mm and a wave height from 7.5 to 12.5 mm, while the trays of the profiled mesh are directed towards the outlet pipe.

In addition, it is advisable to perform the incubation substrate in the form of rows of profiled nets located one under the other, while the formed waves of each underlying mesh should be staggered, and the number of rows of profiled nets in the incubation substrate can be from 2 to 10.

To exclude the movement of larvae against the current beyond the trays of nets, it is advisable to install a fish-holding mesh in front of the incubation substrate.

The implementation of the incubation substrate from the profiled mesh provides the necessary flow and optimal hydrological conditions that positively affect the development of eggs.

The passage size of cells from 3.0 to 7.5 mm is determined by the size of the eggs, where the minimum size of the eggs is 3.5 mm and the maximum is 8.5 mm. With these cell sizes, the eggs will not fall through the mesh holes.

The implementation of the grid in the form of a molded wavy profile with the formation of trays facilitates the process of filling the incubation substrate with eggs and improves the hydrological conditions for the development of eggs.

The implementation of the grid profile with a step of 15.0 to 25.0 mm and a wave height of 7.5 to 12.5 mm is determined by the size of the eggs: a step of 15.0 and a wave height of 7.5 mm for eggs with a diameter of 3.5 mm, pitch 25.0 mm and wave height 12.5 mm - for eggs with a diameter of 8.5 mm.

The implementation of profiled grids in the form of rows located one below the other, in which the formed waves of each underlying mesh are staggered, provides the best hydraulic mode for obtaining viable larvae.

The choice of the number of rows of profiled grids in the incubation substrate is due to expediency, while the installation of grids of less than two reduces the volume of the device, and an increase in the number of grids of more than 10 reduces the hydrodynamic conditions, which negatively affects the development of larvae. An increase in the number of nets increases the height of the device and creates the conditions for the possible impact of objects carried by the river flow on it, as well as difficulties in laying eggs.

The installation of a fish-retaining mesh with the direction of the trays towards the outlet pipe ensures that the larvae move against the flow behind the mesh trays, which significantly reduces the risk of hatching larvae.

A device for the incubation of salmon fish of the genus Salmo and Oncorhynchus in rivers is illustrated by the drawings, where in FIG. 1 shows a longitudinal section through a device installed in a riverbed; in FIG. 2 - section according to I-I; in FIG. 3 - section according to II-II.

The device consists of a housing 1, a cover 2, an artificial incubation substrate made of profiled mesh 3 with a mesh size from 3.0 to 7.5 mm. Mesh 3 is molded in the form of a wavy profile with a pitch of 15.0 to 25.0 mm and a wave height of 7.5 to 12.5 mm. On the rear side of the housing 1 there is an outlet pipe 4 for the release of fry, and on the front side there is an opening 5, to which a water intake 7 is connected by a flexible tube 6, which is extended upstream against the housing 1 of the device. The incubation substrate is made in the form of rows of nets 3 located one below the other, while the generated waves of each underlying mesh 3 are staggered. With this arrangement of grids 3, trays 8 are formed, directed towards the outlet pipe 4. Into these trays 8, the fertilized eggs are laid in one row. On these trays 8, the larvae after almost complete resorption of the yolk sac move towards the outlet pipe 4, and float along it into the river stream.

The incubation substrate in the form of surfaces washed through perforation is located in several layers. The number of rows of nets 3 in the incubation substrate ranges from 2 to 10. The improvement in the incubation conditions of eggs is explained by the flow of eggs not only from below, but also from almost all sides. In trays 8, the larvae will remain until the yolk sac resolves. Further, moving along the trays 8 downstream, the larvae will move from the trays 8 to the conical outlet of the device, concentrating at the outlet pipe 4.

In order for the larvae not to move against the current beyond the trays 8, a fish-retaining net 9 is installed in front of the incubation substrate.

If the number of rows of nets 3 is more than four, then in this case it is necessary to create favorable conditions for the orientation of the fish within the housing 1 and their exit into the river stream by installing two or three outlets 4.

Caviar is loaded when the device is immersed in water (for example, in a container with water), with the lid 2 raised, first into the lowest tray 8 of the incubation substrate. Next, the second row of profiled mesh 3 is installed on top, where caviar is loaded, etc. After all profiled grids 3 are installed, the device 1 is closed with a cover 2. With a flexible tube 6, the housing 1 is connected to the water intake 7, after which it is installed in the soil of the river channel. After a certain time (for the development of embryos, hatching larvae, resorption of the yolk sac), the larvae independently swim into the river stream through the outlet pipe 4 from the device.

Experimental studies have shown that the proposed device allows to increase the number of incubated eggs and the output of viable larvae of salmon species of the Salmo and Oncorhynchus fish species by laying more fertilized eggs and creating the necessary flow rate and optimal hydrological conditions for the development of eggs.

A device for incubating eggs, obtaining salmon larvae of the Salmo and Oncorhynchu genus in rivers under natural conditions is currently at the stage of pilot industrial tests in the rivers of the Republic of Karelia and the Sakhalin Region.

Claims (4)

1. A device for the incubation of salmon roe of the Salmo and Oncorhynchus genus in rivers, comprising a body with a continuous bottom and an incubation substrate separating the body into the lower and upper chambers, a water intake device located on the front side of the body, supplying purified water to the body, an outlet pipe, mounted on the back of the case, characterized in that the incubation substrate is made of a profiled mesh with a mesh size from 3.0 to 7.5 mm, molded in the form of a wavy profile with the formation of trays, located increments apart from 15.0 to 25.0 mm and a wave height of 7.5 to 12.5 mm, while the profiled grid trays directed towards the outlet nozzle. 2. The device according to claim 1, characterized in that the incubation substrate is made in the form of rows of profiled grids located one below the other, while the formed waves of each underlying mesh are staggered. 3. The device according to p. 2, characterized in that the number of rows of profiled grids in the incubation substrate is from 2 to 10. 4. The device according to claim 1, characterized in that a fish-retaining mesh is installed in front of the incubation substrate.

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