RU40136U1 - DEVICE FOR THE RELEASE OF YOUNG FISH IN NATURAL RESERVOIRS - Google Patents

Abstract

The utility model relates to the field of fish farming, in particular, to technology for the release of hatchery juveniles into natural water bodies and can be used in enterprises of artificial reproduction of fish juveniles, with the aim of increasing the likelihood of its survival directly in the area of release and subsequent commercial return and, as a result, increasing the efficiency of hatchery enterprises. A device for releasing juvenile fish into natural water bodies, including a transit reservoir with a pontoon, cylindrical sectional fish pipelines with a bell made of a net cloth with a mesh step that allows juvenile fish to be released through the trunks, and two orders of fixed networks attached to the transit reservoir, while the external the network has a mesh pitch greater than the mesh pitch of the internal network. In addition, it additionally has a bonded fence located in the release area.

Description

The utility model relates to the field of fish farming, in particular, to technology for the release of hatchery juveniles into natural water bodies and can be used in enterprises of artificial reproduction of fish juveniles, with the aim of increasing the likelihood of its survival directly in the area of release and subsequent commercial return and, as a result, increasing the efficiency of hatchery enterprises.

Hatcheries usually practice direct release of juveniles to nearby natural water bodies. To reduce the pressure of predatory fish and increase the survival rate of juveniles in the release zone, biological reclamation of the release areas is used by catching predatory fish (Nikiforov N.D. Development, growth and survival of embryos and juvenile salmon in vivo, v. 48. p. 55-79 Shustov Yu.A. Ecology of juvenile Atlantic salmon. Petroz. "Karelia", 1983.)

The need for pre-emptive fishing of predatory fish before the release of factory juveniles is obvious, but not sufficient to ensure the survival of juveniles in an unfamiliar habitat immediately after release, in addition, predators will soon again freely accumulate in the concentration zone of the potential prey. A known method of releasing juveniles through exhaust ponds, arranged next to the river. With the channel, the pond is connected by two channels to ensure flow. To adapt to conditions

natural pond juveniles are placed in such ponds 2-4 weeks before release. For the release of juveniles, an outlet is opened and juveniles freely exit. (Harris GS (ed) Salmon propagation in England and Wales. ARA / NWC Working group Report. L. National Water Council, 1978, 62 p.) Negative situations when using this technique arise if not all juveniles leave graduation ponds and you have to either catch it with nets or drain the pond. In addition, when entering a natural body of water, juveniles do not have special protection from predatory fish, and their own defensive instinct is still too weak.

Widely used is the method of salvo release of juveniles by exporting it in fish-breeding slots and other containers to rivers at a distance of up to 1000 km. from a fish farm (Shevtsova EE The stocking of salmon rivers in Sweden. - EI Ser. Rybokh. Used. Inside. Ponds M., 1973, issue 3, pp. 1-3.)

At the same time, the release of unadapted factory juveniles into unfamiliar water areas is accompanied by stress and attacks of attracted predatory fish and birds and, as a result, low survival, since factory juveniles that are not adapted to living in the natural environment still do not have the skills to use orientational and defensive reactions, and therefore are subject to intense eating.

The technical task of the utility model is to create a device that ensures the release of factory fish of young fish into the localized water area of a natural reservoir, the functional mode of which is adapted to ensure the survival of young fish during their habitat.

The problem is solved by creating a device for the release of juvenile fish in natural reservoirs, including a transit drive with a pontoon, cylindrical sectional

fish pipelines with a bell made of a net cloth with a mesh step that ensures the release of juvenile fish through the bell and two orders of fixed networks attached to the transit drive, while the external network has a mesh step exceeding the mesh pitch of the internal network.

In addition, it additionally has a bonded fence located in the release area.

The essence of the utility model is illustrated by the diagram in Fig. 1 - side view, Fig. 2 - top view.

Devices for releasing juvenile fish into natural water bodies include a transit tank 1, with a pontoon 2, cylindrical sectional fish pipelines 3 with a bell 4, made of net fabric with a mesh step that allows juvenile fish to be released through the bell 4, and two orders of fixed nets 5 attached to the transit drive 1, while the external network has a mesh step greater than the mesh step of the internal network. The device is held in the water using anchors 6. Bonn fence 7 is placed in the area of release of juveniles. The operation of the device.

The device is placed with the help of anchors and on a pontoon basis of a catamaran type in the coastal zone of a reservoir in the immediate vicinity of the plant or in any other specially prepared place, thus forming a barrage system.

The transit drive 1 is a closed net cage of any geometric shape, in the side walls of which there are openings, to which, from the outside, by any known method that ensures the reliability of the structure, sections of fish pipelines 3 are fastened, which are fan-shaped at an angle to the flow. Immersion depth of each fish line 3

vary according to the conditions of topography in the release zone and the size and species composition of the released fish. Its position on a given horizon is ensured by means of floats (not shown in the diagram) in neutral buoyancy. The number and size of fish pipelines 3 is regulated depending on the volume, type and size of released juveniles. The inner wall of the reservoir 1, from which the fish pipelines 3 exit, is additionally equipped with an apron-type shutter (not shown in the diagram) made of dense elastic material, which, in case of force majeure circumstances, allows the fry to exit into the open reservoir.

The fish-pipe bell 3 provides local protection of juveniles due to net filling, which allows free passage of juveniles and the habitat of predatory fish.

General protection of juveniles is ensured by two concentric orders of fixed nets 5. The mesh size of the external order is larger than the internal one, which allows the integration of larger predatory fish already on the first defense circuit.

Thus, the use of the device significantly increases the level of protection of plant juveniles in the conditions of a real press of predatory fish and birds in natural water bodies during its release and is more likely to ensure its survival in the protected release area. Moreover, the plant juveniles, using the situational delay in the release zone, get the opportunity to adapt to the natural environment in favorable conditions, since its subsequent migration to the reservoir is carried out along a wide front of the protective fence that freely passes juveniles.

The efficiency of the proposed device is calculated by comparing the model of the factory

juveniles into a natural reservoir using protection of the release zone and without protection.

The frontal area of juvenile outcrop into open water is conventionally taken as the lateral surface of the cylinder. The depth of the installation location of fixed networks is taken equal to - h, the radius of the protected area is r., Then the frontal protective area is:

Saving = 2 · r · h = 52.0 m

Direct release of juveniles is carried out through sockets, the number of which is n. Each bell is conventionally taken as a cylinder with a length of - l and a radius of - r 'then, the surface passing through the fry is equal to:

Sprosp. = (2 · r · l + r) n = (60.3 · 0.3 + 3 · 0.09) 5 = 9 · 0.09 · 5 = 4.0 m

Comparing the areas of frontal protection and direct release, we obtain the efficiency coefficient:

Consequently, the efficiency of the production of factory juveniles using the inventive device can be increased by more than 13 times compared to the salvo release.

Claims (2)

1. A device for releasing juvenile fish into natural water bodies, including a transit reservoir with a pontoon, cylindrical sectional fish pipelines with a bell made of a net web with a mesh step, which ensures the release of juvenile fish through the bell mouths and two orders of fixed nets attached to the transit reservoir, while the external network has a mesh pitch greater than the mesh pitch of the internal network. 2. The device of claim 1, characterized in that it further has a bonded fence located in the release zone.