RU2088082C1 - Method of catching fish under the ice - Google Patents

Abstract

FIELD: fishery, in particular, catching of fish in lakes. SUBSTANCE: method involves creating aeration zone in basin by means of flow forming aerator; providing concentration of fish in aeration zone by switching off aerator for at least one day; controlling oxygen content in catching zone; performing first throwing of net under ice, when oxygen concentration is reduced to value causing hard breathing of fish; switching on aerator upon withdrawal of net and completion of catching process. As concentrated fish is gradually caught, aeration stop time is gradually increased. EFFECT: increased efficiency and simplified method.

Description

 The invention relates to lake fishing and can be used for fishing overland lakes.

A known method of ice fishing, involving the attraction of fish using an aerator, stream former in the auxiliary reservoir connected to the lake by two channels, and its catch by the net seine [1]
However, in the area of the lake adjacent to the auxiliary reservoir, a zone with an increased oxygen content is also created, where the oxygen content, although somewhat lower than in the auxiliary reservoir, is higher than the water temperature (the oxygen content on the flow axis decreases with distance from the flow generator aerator, and the temperature of the water increases). Therefore, heat-loving fish, such as carp, are concentrated not in the auxiliary water body, but in the lake adjacent to it. For catching this fish it is necessary to use offshore seines of great length (600-800 m) and a large number of fishing equipment.

 There is also known a method of ice fishing using an aerator-stream former, including the concentration of fish in the aeration zone, its compaction, launching a net under the ice and its selection [2] This method is the closest to the claimed technical essence and the achieved result.

When implementing the known method, fishing is carried out when the aerator-stream former is included in the operation, and its compaction is carried out either by reducing the cross-section of the flow using shutters [3] or a transverse partition [4]
However, during the operation of the flow aerator, a large amount of cold air enters the water column, which cools the water in the aeration zone, and water is most cooled in parts of the zone adjacent to the axial flow line, especially in the initial section. Therefore, fish, especially heat-loving ones, such as carp, are concentrated not in the middle of the aeration zone, where the oxygen content is higher, but on its outskirts, where the dissolved oxygen content is lower, but the water temperature is higher. With a decrease in the cross section of the flow using dampers or valves, the range of action of the aerated water flow decreases markedly and, at the same time, the oxygen content in the aeration zone increases.

 At the same time, the temperature of the water in the aeration zone decreases (the aerated water often goes to re-aeration and cools more strongly) and the convective exchange between the cold water in the aeration zone and the lake water outside the aeration zone increases, the temperature of which is much higher. As a result of this, as the range of the stream decreases, its width increases, and the area of the site suitable for fish survival does not change significantly. In addition, a decrease in the range of the flow using the dampers does not significantly affect the behavior of the carp (its compaction in the fishing zone).

 It continues to be on the outskirts of the aeration zone in a dispersed state over a large area that cannot be covered by 1 note of net (usually, aeration zone is caught using 2-3 tone sections). At the same time, the great mobility of the fish with a normal oxygen content (3-4 mg / l) allows it to easily leave the space overcast by the net.

 The disadvantage is that for the implementation of the known method requires a large amount of expensive electricity (fuel), since the aerator-flow generator operates in a continuous mode.

 The invention is aimed at solving such technical problems as increasing the density of fish in the fishing zone, reducing energy costs for the concentration of fish and increasing the efficiency of fishing.

 This is achieved by the fact that in the method of ice fishing using an aerator-stream former, which includes the concentration of fish in the aeration zone, its compaction, the start of the net in the aeration zone and its selection, the aerator-stream former is turned off before the nets notice, at least for example one day and observe the change in the oxygen content in the water in the fishing zone, the first run of the net is carried out when the oxygen content in the water in the fishing zone drops to a value that causes respiratory depression of the fish, and after sampling the net of aer Op-potokobrazovatel include operation, wherein at least the catch concentrated fish duration of stops aerator gradually increased.

 The method of ice fishing is as follows.

 In the reservoir to be harvested, an aeration zone is created using the aerator-stream former to concentrate the fish. Before starting the seine, the aerator-flow generator is turned off at least for one day and the change in the content of oxygen dissolved in water is monitored in the catch zone. When its content is reduced to a value that causes respiratory depression of the fish, the first note of a net is made. After sampling the net, the aerator-flow generator is included in the work. As concentrated fish are caught, the stops of the aerator-stream former are gradually increased.

 Example 1. It is necessary to catch a locking lake stocked by carp, which is planted on annual feeding.

 When the oxygen content is 1.5-2.0 mg / l, that is, the oxygen content that causes respiratory depression in the carp, when it actively moves around the lake in search of areas with a higher oxygen content in the lake, an aerator-flow generator is activated and created zone with oxygen content that does not cause respiratory depression, 4 mg / l.

 They start fishing when the oxygen content in the lake drops to 0.3 mg / l (minimum for carp survival 0.3-0.5 mg / l), when leaving the aerated zone becomes impossible.

 Before starting the net for the first time, the flow aerator is turned off for 1 day. In the process of stopping the operation of the aerator-flow generator, a decrease in the oxygen content in the fished area is observed.

 When the aerator-flow former is turned off, a rapid decrease in the dissolved oxygen content begins from the outskirts of the aeration zone, where water with a high oxygen content is directly in contact with lake water, which has a low oxygen content. As a result of this, the area of the site on which the fish was concentrated in the aeration zone decreases. At the same time, the water temperature rises in the middle of the aeration zone adjacent to the center line of the flow (in the catch zone), since cold air ceases to flow from the aerator, and through the surface of the water that is open from ice (it is covered with ice) into this zone. Therefore, fish from the outskirts will move to the middle of the aeration zone (into the catch zone) will be compacted.

 When the oxygen content in the fishing zone decreases from 4 mg / L to 1.5-2.0 mg / L, the first note of the net is made. After the nets subside, an aerator-flow former is included in the operation and the oxygen content is increased to a normal level (not causing respiratory depression).

 As the catches for tumbling decrease, the stop duration of the aerator-flow former gradually increases; at the beginning up to 1.5 days, then up to 2 days, etc. At the same time, the area of the site on which the fish can survive is decreasing more and more, while the activity of the fish is decreasing and the catchability of the net increases. Fishing is completed when the oxygen content in the fishing zone is close to critical (0.3-0.5 mg / l), that is, close to a minimum for survival.

 In the case of growing carp using the technology of long-term feeding, the aeration zone is caught with a large-sized back-water net, and fishing is completed at a higher oxygen content in the harvested space: at 1.0-1.5 mg / l.

 Example 2. It is necessary to catch a overland lake stocked with peled, planted on an annual feeding.

 When the oxygen content in the lake is 3.5-4 mg / l, which causes respiratory depression in peled, an aerator-flow former is activated and an area with a normal oxygen content that does not cause respiratory depression (4.3 mg / l) is created.

 When the content outside the aeration zone drops to 0.9-1.4 mg / l (the minimum oxygen content necessary for respiration is 1.0-1.5 mg / l), an aerator-flow former is included in the operation.

 The first time they start a net, when after stopping the aerator, the oxygen content in the middle of the lake will drop to 3.5 mg / l. Finish fishing with an oxygen content in the middle of the aeration zone of 1.0-1.5 mg / L.

 Example 3. It is necessary to catch a overland lake stocked with carp and peled, planted on an annual feeding.

 The mode of operation of the aerator-flow former at the beginning is selected according to peled, as a more sensitive object to oxygen deficiency, that is, according to example No. 1, and then according to carp (example No. 2).

 In the implementation of the described method, the process of compaction of the fish is accompanied by a decrease in the content of oxygen dissolved in water in the fishing zone to a value at which it becomes less active, and as the concentrated fish is caught, the oxygen content in the fishing zone decreases more and more, and the activity of the fish decreases accordingly. As a result of this, the catchability of the backwater net increases, the productivity of fishing increases.

 In addition, the negative effect of low water temperature on fish in the aeration zone during its compaction is not so noticeable, since as the aeration zone decreases, the water temperature in the middle of this zone not only does not decrease (as in the method closest to the described ), but on the contrary, increases. As a result, fish from the outskirts of the aeration zone, where the oxygen content is lower than in the middle, moves to the middle of this zone.

 As a result, the area of the area on which the fish was concentrated decreases, the efficiency of fishing increases.

 At least 1.5-2 times the cost of expensive electricity is reduced due to the fact that each time before the seine is noticed, the aerator-flow former is turned off for one or several days, while in the known device the aerator-flow former operates almost continuously.

 It also reduces the cost of expensive network materials for the construction of offshore seines and the time to start and sample the seine, because the length of the net can be reduced from 600-800 to 300-400 m, because fishing is based on catching dense concentrations of fish.

Claims (1)

 A method of ice fishing involving the creation of an aeration zone in a pond using an aerator-stream former, concentration of fish in the aforementioned zone and compaction, launching a net under ice and sampling of a net, characterized in that at least the aerator-stream former is shut off to seal the fish before launching a net for one day and monitor the change in the content of oxygen dissolved in water in the fishing zone, the first run of the net is carried out when the oxygen content in the water in the fishing zone decreases to a value that is provocative уг respiratory depression of the fish, and after sampling the net, the aerator-stream former is put into operation, and as the concentrated fish is caught, the duration of the stops of the aerator-stream former is gradually increased.