RU2294635C2 - Water aeration, fish concentration and catching method - Google Patents

Abstract

FIELD: lake fishery, in particular, procedure for attracting of fish into catching zone followed by catching or retention of fish in aeration zone up to the end of perishing period.

SUBSTANCE: method involves establishing aerator-flow generator in direct-flow channel whose front part is communicating with basin and rear part is made dead ended; generating oxygen-saturated water flow and attracting fish into aeration zone, followed by catching fish or retaining fish in basin area up to the end of perishing period; positioning aerator-flow generator on surface and additionally setting catch; adjusting oxygen content in channel and in lake portion adjoining thereto by reducing or increasing distance from aerator-flow generator to leading part of channel.

EFFECT: increased efficiency by reduced zone of distribution of oxygen-saturated water over basin area, decreased consumption of power by employed equipment, reduced sizes of catching equipment and increased catching effectiveness.

3 dwg, 2 ex

Description

The invention relates to lacustrine fish farming and can be used to attract fish to the fishing zone with subsequent catch, for example, by a net seine or trap, or to save in the aeration zone until the end of the overseas period.

A known method of aeration of water, concentration and fishing using a fish tank in communication with a pond through the feed and discharge channels, installing an aerator-stream former in the feed channel and catching a fish by a trap in the discharge channel or backwater net in a section of the reservoir adjacent to the discharge channel (a. S. No. 1731120, publ. 05/07/1992, bull. No. 17).

However, oxygen-rich water discharged from the fish tank into the body of water into the body of water is distributed in an unlimited space of the body of water over an excessively large area, mixes with the environment with a low oxygen content, and uses up most of the oxygen dissolved in the water to oxidize bottom sediments far beyond the aerated zone . For this reason, to create a zone with a fish-friendly oxygen regimen using the known method, flow aerators with high oxygen productivity are required for round-the-clock operation, for which a large amount of expensive electricity is required.

There is a method of aeration of water, concentration and fishing, including installing an aerator-flow former in a direct-flow channel, the front part of which is connected to the reservoir, and the rear is made dead end, creating a stream of oxygenated water and attracting fish to the aeration zone with its subsequent catch or storage in the water area pond until the end of the overseas period (patent RU 2236125 C2, 2004).

However, the distribution area of oxygenated water over the water area of the reservoir when using the known method is still large. To catch it, large backwater seines (600-800 m) are required, and a large number of fishermen and fishing equipment are needed to service them. In addition, the scattered stream of water created in a pond using a reflector does not create an incentive for riverine fish (peled, etc.) to orderly movement in one direction. Therefore, such a flow of water is not suitable for controlling the behavior of fish, in particular for directing a fishing object into a trap when the fishing technique is greatly simplified.

The technical result from the use of the invention is to reduce the distribution zone of oxygenated water over the water area of the reservoir and the power used by aerators, stream-forming agents, as well as to reduce the size of the used fishing gear (off-net seines), simplifying fishing technique, reducing fishing time and increasing fishing efficiency.

This is achieved by the fact that in the method of aeration of water, concentration and fishing, including the installation of an aerator-flow former in a direct-flow channel, the front part of which is connected to the reservoirs and the rear is made dead end, creating a stream of oxygenated water and attracting fish to the aeration zone with subsequent catch or by preserving it in the water body of the reservoir until the end of the clogging period, the aerator-flow former is placed on the surface in the channel and an additional trap is installed, while the oxygen content in the channel and in the area odoema adjacent thereto is adjusted by reducing or increasing the distance from the flow--aerator prior to the front portion of the channel.

The proposed method is illustrated by drawings, where Fig. 1 shows a direct-flow channel built on the shore of a reservoir, an aerator-flow former, a trap and non-aqueous tonya, a top view, Figs. 2 and 3 show the same devices for implementing the method as in Fig. 1, only direct-flow tray 1 in figure 2 is made of plastic film, and in figure 3 of bulk soil and they are located in the coastal zone of the reservoir.

EXAMPLE 1. It is required to introduce a method of aeration of water, concentration and fishing in a overland lake used for growing peled and carp. On the lake there is a plot convenient for the construction of a direct-flow channel. The coastal zone adjacent to this site is quite deep (does not freeze to the bottom), does not overgrow with aquatic vegetation, and is suitable for catching net seine.

On the site of the lake that meets the above requirements, build a direct-flow channel 1 in accordance with figure 1. Concentration and fishing begins when the oxygen content in the lake (fishing area) is 4-5 mg / dm ³ , when the fish that live and grow in the overland lakes, including peled and carp, begin an active search for places with the highest oxygen content.

Before the start of fishing, a trap 2 and a surface aerator-flow former 3 are placed in the direct-flow tray (N19-IAL turbo aerator with a power of 0.5-1.0 kW, designed by SibrybNIIproekt).

When the aerator-flow former is turned on, the surface water stream 4 is directed along the channel 1 to the reservoir, and the bottom stream of water 5, on the contrary, is transferred from the reservoir to the channel. As a result of the fact that the surface and bottom flows are directed in opposite directions under the constrained conditions of the channel, the entry of bottom water from the reservoir to the flow aerator decreases and the discharge of the oxygenated surface layer of water into the reservoir decreases, and the saturation of water with oxygen in and out of the channel increases. The distribution of oxygenated water over the water area of the reservoir decreases and the unproductive losses of oxygen dissolved in water for oxidation of bottom sediments decrease. Ultimately, reduced energy costs for aeration of water, concentration and fishing. Moreover, the farther the aerator-flow former is located from the front of the channel, the larger the contact area between the surface and bottom layers of water in the channel, the less water flows to the aerator for repeated aeration and the less oxygen-saturated water is discharged into the reservoir, the higher the oxygen content in the aeration zone and the distribution zone of oxygenated water over the water body and the loss of oxygen into the environment are smaller. And vice versa, the closer the aerator-flow former is located to the front of the channel, the larger the distribution zone of oxygen-saturated water over the water area of the reservoir and the lower the oxygen content in the aeration zone.

The installation location of the aerator-flow former is chosen so that (at such a distance from the end of the front of the channel) that the oxygen content at the outlet of the direct-flow channel during the entire period of fishing or winter keeping of the fish remains at the level of 5-6 or 6-7 mg / dm ³ . The flow of water from the aerator-stream former with such a content of dissolved oxygen in the channel and at the exit from it, like a stream of oxygenated water flowing into the river ("live fish"), is capable, as practice has shown, of attracting any fish into its zone of action, including peled and carp.

First they start fishing for fish more sensitive to oxygen - peled, which, in its desire to move against the flow of a stream of water with a high oxygen content, falls into a trap 2.

Carp fishing is started when the oxygen content outside the aerated zone is equal to or close to zero, when the fishing object cannot leave the aeration zone. Carp is caught by backwater net 100-150 m long.

In two-year-old rearing, large fish are caught with coarse back-cast net, and small fish are kept in the aeration zone until the end of the overseas period.

EXAMPLE 2. It is required to introduce a method of aeration of water, concentration and fishing in an overland pond, which is also used for growing peled and carp. Characteristic features of the reservoir: the coastal zone is shallow (freezes to the bottom) and overgrows with aquatic vegetation.

On the site of the lake, located near local electric networks and convenient for non-aquatic fishing, a direct-flow channel (tray) is built from a plastic film (see figure 2) or from bulk soil (see figure 3).

The length of the canal is chosen according to the width of the strip of coastal aquatic vegetation, and also taking into account the fact that the depth of the reservoir before entering the canal was at least 1.5 m. In reservoirs with a very wide coastal strip of aquatic vegetation and a direct-flow channel made of plastic film freezing to the bottom of the water and from bulk soil they build with separation of the back of the channel from the coast. Conversely, in bodies of water with a narrow strip of aquatic vegetation and freezing water to the bottom, a direct-flow tray is built, if the shore allows it, with its partial location in the coastal zone, and the rest of it on the shore.

The fishing technique using a direct-flow channel made of plastic film and bulk soil does not differ from the above.

The main advantages of the proposed method are: the distribution zone of oxygenated water over the water area of the reservoir is reduced several times, which means unproductive losses of dissolved oxygen to the environment and energy costs for aeration of the water, concentration and catch of fish. Ultimately, the fishing technique is simplified and the efficiency of lake fish farming is increased. In addition, it becomes possible to catch the lakes stocked up by carp with small overhead seines (100-150 m), including by own efforts of small farms that are able to effectively develop the smallest lakes, which large commodity farms exclude from economic turnover.

Claims (1)

A method of aeration of water, concentration and fishing, including installing an aerator-flow former in a direct-flow channel, the front part of which is connected to the reservoir, and the rear is made dead end, creating a stream of oxygenated water and attracting fish to the aeration zone with its subsequent catch or keeping it in the water area of the reservoir until the end of the overcast period, characterized in that the aerator-flow former is placed on the surface in the channel and an additional trap is installed, while the oxygen content in the channel and on the lake, adjacent to it, is regulated by decreasing or increasing the distance from the aerator-flow former to the beginning of the front of the channel.

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