RU2139655C1 - Method for fish rearing in nursery pond - Google Patents

Abstract

FIELD: fishery, in particular, one-year and multiple-year fish rearing in ponds. SUBSTANCE: method involves rearing fish in nursery ponds in combination with auxiliary pond and aerator-flow former; stocking nursery pond with fish, concentrating; compacting, keeping and catching fish. Fish concentration is performed with the usage of auxiliary or main and auxiliary aerator-flow former, whose total capacity provides attraction of fish from the whole water area into aeration zone. Fish keeping and catching are conducted with the usage of main low-capacity aerator-flow former providing optimum power consumption, favorable conditions for prolonged fish keeping in aeration zone at controlled remoteness of water flow spreading over pond water area and regulated oxygen content in aeration zone. Auxiliary aerator-flow former is positioned adjacent to working zone of main aerator-flow former. Compaction is conducted by gradually restricting working zone of auxiliary aerator-flow former with following switching it off and by gradually reducing working zone of main aerator-flow former and switching it off for short time (1-2 days). EFFECT: reduced power consumption, improved fish keeping conditions, increased catch yield in small and large ponds in which natural fish concentration areas are preliminarily separated from auxiliary pond prior to asphyxiation. 3 cl, 1 dwg, 2 ex

Description

 The invention relates to lake fish farming and can be used both for annual and long-term fish farming in overland lakes.

 In addition, technological operations such as concentration, attraction, keeping and fishing of fish, which are the basis of the method, can also be used to catch partial fish (perch, ruff, etc.), permanently or temporarily (during feeding), living in overseas and periodically overland lakes.

 A known method of growing fish in inland lakes, including stocking a pond, attracting, concentrating, keeping and catching fish using an aerator, stream former installed in the lake (Slinkin N.P. Growing and fishing in shallow inland lakes - "Fish farming and fishing" 1996, N 3-4, pp. 22-24) (1). However, for the implementation of the known method on large lakes (500-800 ha and more), aerators are required - flow generators (turbo-aerators HI9-IAV designed by Siberian Research Institute of High Project) of high power (11-22 kW), operating continuously for 2-4 months. To ensure round-the-clock operation of only one such product, 7900-15800 kV • h of electricity per month is required. Another significant disadvantage of this method is that for fishing concentrated in the aeration zone, fish requires offshore seines 600-800 m long, as well as a large number of fishermen, equipment, fuel, spare parts, etc. In addition, the known method is not reliable enough when the aerator stops unexpectedly even for 3-4 days in the aeration zone, surrounded on all sides by water with a low oxygen content, the fish dies.

 A known method of growing fish in overland lakes, including stocking a reservoir, fish concentration using an aerator-stream generator installed in the water area of the lake, and its compaction by turning off the aerator-stream generator before each note of netting for one to two days (RF patent N 2088082, published. 1997). For catching concentrated fish, according to the known method, it is required two times shorter than the casting net and 1.5-2 times less electricity compared to the first analogue. However, at each stop in the cold season, the working element (turbine) of the aerator-flow former freezes in ice, and its release from ice requires a lot of physical strength. In addition, the reliability of the conservation of farmed fish using the known method is also insufficient.

 There is also a method of growing fish in overland lakes (adopted as a prototype), including stocking a reservoir, concentration, compaction, keeping and catching fish using an auxiliary reservoir and aerator-stream former (Slinkin N.P. Growing and fishing in shallow-water inland lakes. - "Fish farming and fishing", 1996, N 3-4, p. 22-24).

 This method has a number of significant advantages - the length of the backwater net decreases to 30-100 m, the need for equipment, fuel, materials is sharply reduced, the reliability of fish conservation is improved, the conditions for its implementation are improved, etc. At the same time, the efficiency of the aerators during the winter keeping of fish in the auxiliary pond disconnected from the lake (with the help of sandore partitions) increases several times since the aerated water is not mixed with the water of the feeding reservoir having a low oxygen content. There is a real opportunity to concentrate, maintain and fish using low-power aerators and flow formers (1-3 kW), including using wind aerators.

 However, the known method can be used only when the place in the lake where the fish is concentrated in the appropriate period (deep zone, above the oxygen content, etc.) is located close to the auxiliary reservoir and low-power aerator-flow former. Otherwise (most often this occurs on large lakes, as well as on small lakes with a complex configuration, for example, narrow but long), it becomes necessary to use an aerator-flow former of obviously greater power, otherwise the fish located outside the zone of operation of the aerator-flow former dies during a lake in a lake.

 The use of high-power flow aerators-not only increases the consumption of expensive electricity, but also an excessive amount of cold air enters the aerated water.

 A disadvantage of the known method is that the orientation of the aerated water flow cannot be changed, although this is often necessary, for example, when there are two or three zones with a high oxygen content in the lake. In this case, the flow of water should be directed alternately to each of these zones. It is difficult to direct the flow of aerated water in the known method to the zone with a high oxygen content, which is located away from the auxiliary reservoir.

 The technical result from the use of the invention is to reduce energy costs, improve the conditions of keeping fish and increase the efficiency of fishing for small and large lakes, in which the places of natural concentration of fish before the dead are removed from the auxiliary reservoir.

 This is achieved by the fact that in the method of growing fish in overland lakes, which involves the use of an auxiliary reservoir, concentration, compaction, keeping and catching of fish, the fish is concentrated using additional or main and additional aerator, the total power of which ensures the attraction of cultivation objects in the aeration zone from the entire water area of the lake, and they contain and catch it using the main aerator-flow generator of low power, which ensures optimal consumption of electric power energy (fuel) and favorable conditions for long-term keeping of fish in the aeration zone.

 This is also achieved by the fact that as sources of aerated water flow it is possible to use aerators, flow generators with adjustable parameters - the range of distribution of the water flow in the water area of the reservoir and the oxygen content in the aeration zone, as well as the fact that an additional aerator-flow former can be installed in the zone actions of the main flow aerator, and the fish can be densified by constantly reducing the zone and the action of the additional flow aerator, followed by turning it off, then Uteem gradual reduction of range of the primary-flow-aerator and a short (1-2 days) is disconnected.

 Example 1. It is required to introduce a method for the long-term cultivation of carp and peled using an auxiliary reservoir and two aerators, flow-forming agents (the main and the additional) on the Lake Singul overseas lake of the Yalutorovsky District of the Tyumen Region (the lake area is 1142 hectares, the maximum depth is 2 m).

 On the shore of the lake near the village of Tatarsky Singul, an auxiliary reservoir 1 is being built (the construction site is convenient, the power grid is close by) with an area of 1 ha (at the rate of 0.1 ha per 100 ha of lake area), a depth of 3.0-3.5 m (cm . drawing), connected to the lake with water intake 2 and water outlet 3 channels, equipped with hydraulic structures (sandwich partitions) 4. Aerator-flow generator 5 (turbo aerator N19-IAK designed by SibrybNIIproekt with a capacity of 2-3 kW) is placed in the water intake channel. In the spring, abstraction baffles are installed in the water intake and spillway channels, the auxiliary pond is freed from predators, for example, by continuous two-, three-fold filtering of the entire volume of water and used to grow small planting material (fry and larvae). After the juvenile rearing process is over, the sandore partitions are removed in order for the fish to be able to make regular migrations from the shallow water area of the feeding reservoir to the deep zone (auxiliary reservoir) and back.

If an oxygen deficiency appears in summer, during a period of abundant "blooming" of water, in order to exclude the death of fish from summer kills, an aerator-flow generator 5 is put into operation and a zone with a normal oxygen content in the auxiliary reservoir and on the lake adjacent to it is created. In addition, peled, which is a cold-loving fish, is saved in a deep auxiliary pond on hot days from overheating. In winter, when the oxygen content in the water, in the vicinity of the auxiliary reservoir, begins to approach a minimum for the survival of the most demanding oxygen deficit of the cultivation object - peled (minimum O ₂ required for survival, 1.0-1.5 mg / l), put in the coverage area of the main aerator-flow generator 5 (against the spillway channel, 10-15 m from the shore) an additional aerator-flow generator 6 (turbo aerator N19-IAV / 1 of the design of SibribNIIproekt, 11-15 kW power), the flow of which is directed simultaneously to the nearest 7 and the far (not shown) zone with a high oxygen content (they are located on the same line) and include it in the work. Simultaneously with the additional or some time after it, the main flow aerator is used, used for a long (3-4 months) time period, in contrast to the additional flow aerator, which is used for no more than 20-80 days.

When the oxygen content outside the aerated zone is reduced to a value at which not only peled, but also the carp (minimum O ₂ necessary for survival of 0.3-0.5 mg / l) cannot leave the aeration zone, they begin to compact the fish and forcibly directing her into an auxiliary reservoir. For this, the coverage area of the additional aerator-flow former is gradually reduced to a minimum, after which it is turned off, then the coverage area of the main aerator-flow former is gradually reduced (water discharge from the auxiliary reservoir to the lake is reduced) and it is turned off briefly (for 1-2 days). When the border of the inland zone comes close to the auxiliary pond (spillway canal) from the side of the lake, both channels are completely covered by the gate walls.

 The oxygen content in the auxiliary pond is maintained at a normal level with the help of an aerator-stream former 5. Fish are caught as the large-net seine is sold 30-100 m on non-aqueous toni 8.

 In early spring, overwintered fish is released into the lake, and a new batch of planting material is placed in the vacated auxiliary pond for growing.

 Example 2. It is required to introduce a method for the long-term cultivation of carp and peled using an auxiliary pond and two aerators, flow-forming agents (the main and additional) on the inland lake with an area of 500-800 hectares, which has three zones with an increased oxygen content in the pre-sea period, located at different ends of the lake .

 The method is carried out also, as in example 1, only the flow of aerated water of the additional aerator-flow former is directed first to one, then to the second and third zones with a high oxygen content or direct it along the coast, i.e. create a circular movement of water throughout the pond and in this way attract all the fish into the aeration zone.

 The invention makes it possible to build auxiliary reservoirs where it is more convenient and economically most profitable (not far from settlements, roads, electric networks, on unused land, etc.); significantly increase the ability to grow fish in overland lakes with the use of auxiliary reservoirs, as it can also be used on relatively large lakes (500-1000 ha and more), on which fish concentrates far from a place convenient for the manufacture of an auxiliary reservoir; start fishing for lakes for 10-20 days later than usual, without fear that the fish will move to a section of the lake, located far from the auxiliary reservoir, and die there; to make it possible to more fully catch overseas lakes, on which there are 2-3 zones with a higher oxygen content compared to other parts of the lake.

Claims (3)

 1. A method of growing fish in overland lakes, involving the use of an auxiliary reservoir and an aerator-stream generator, including stocking, concentration, compaction, keeping and catching fish, characterized in that the fish is concentrated using additional or main and additional stream aerators, the total capacity of which provides for its attraction to the aeration zone from the entire water area of the lake, and it is kept and caught using the main low-power aerator-flow former, providing its optimal consumption of electricity (fuel) and favorable conditions for long-term keeping of fish in the aeration zone.  2. The method according to p. 1, characterized in that as sources of aerated water flow using aerators, flow generators with adjustable parameters - the distribution range of the water flow in the water area of the reservoir and the oxygen content in the aeration zone.  3. The method according to claim 1, characterized in that the additional aerator-stream former is placed in the coverage area of the main aerator-stream former, and the fish is compacted by gradually reducing the zone of operation of the additional aerator-stream former, followed by shutting it off, then by gradually reducing the zone of operation of the main aerator -current and short-term (for 1 - 2 days) shutdown it.