RU2444187C2 - Riverbed spawning complex - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: complex comprises a flooded spawning ground, a channel of a water-conducting spawning track of trapezoidal cross section with elements of higher roughness at the bottom. The flooded spawning ground is installed in the upper reach of the complex. The water-conducting track is formed with side dams that narrow the channel and a bottom threshold in the head part. The bottom part of the channel section is arranged with an inclination. Wintering pits are arranged in the end of the water-conducting track.

EFFECT: design will make it possible to create conditions for efficient spawning of phytophilous and lithophilous fish into imitating rapids.

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Description

The invention relates to hydraulic engineering construction, and in particular to structures providing an approach for fish producers to spawning grounds and spawning of fish producers on spawning grounds located mainly in small rivers, the substrate of which is flooded vegetation, gravel and pebble drafts.

Known fish passage and spawning channel (US Patent No. 6652189, IPS E02B 5/04), including a water supply path, the head of which is connected to the upper pool of the hydraulic system, and the wellhead part - to the lower pool, made in the form of a trapezoidal cross-section channel. Elements of enhanced roughness are installed at the bottom of the channel and are located in plan at an acute angle to the flow.

The disadvantage of this structure is the small area of the spawning field, the lack of conditions for spawning of phytophilic fish species, the inability to work effectively with variable water levels in the upper pool and costs.

The closest in technical essence and the achieved result is a fish-spawning canal (RF patent No. 1734615, Е02В), including a water supply path, the head of which is connected to the upper head of the hydraulic system, and the wellhead part - to the lower foot, made in the form of a channel with a trapezoidal transverse section, elements of increased roughness, installed on the bottom of the channel, and spawning substrate that mimics natural vegetation.

The disadvantage of this design is the impossibility of its operation in riverbeds without the presence of blocking retaining structures that provide stable supply of fish-spawning canal with water while maintaining the normal retaining level (NPU) in the upper pool of the hydraulic system.

The technical result achieved by the present invention is the creation of effective conditions for spawning of phytophilic and lithophilic fish in small rivers, without blocking their channel with a retaining structure, taking into account fluctuations in river flow during spawning.

This technical result is achieved by the fact that the water supply path is formed by side dams, restricting the channel, and a bottom threshold in the head part. The bottom of the channel section is made with a slope, and wintering pits are arranged at the end of the water supply tract. In addition, the channel section of the water supply tract is a channel spawning ground, and the height of the bottom threshold P in its head part does not exceed 1/3 of the depth of the stream H in the channel section.

Figure 1 shows a plan of the channel spawning complex, figure 2 is a longitudinal section of it, figure 3 is a transverse section.

In the channel of the river 1, a channel spawning complex is set up, consisting of side dams 2, restricting the channel 3, and the bottom threshold 4 in the head of the channel. The bottom of the channel section is fixed with a stone-pebble outline 5 and is made with a slope. Wintering pits are arranged at the end of the water supply channel 6. The channel section of the water supply channel 3 is a channel spawning ground for lithophilic fish, and the upper pool of the channel complex, flooded due to backwater with a flooded plant substrate, represents a flood spawning ground 7 for phytophilic fish.

The channel spawning complex works as follows.

In the channel of the river 1, in the upper pool of the channel spawning complex, due to the bottom threshold 4 and the narrowing of the channel with side dams 2, a water level is formed. The amount of backwater depends on the flow of the river, on the height of the bottom threshold 4 P and the degree of tightness of the channel by side dams 2.

Due to the created backwater, the vegetative substrate will be flooded along the river banks in the upper pool of the spawning complex and thereby will be created a flood spawning area 7 for spawning of phytophilic fish.

In the complex itself, on its channel section 3, fixed by a stone-pebble outline 5 and having a slope, a turbulent stream is formed that simulates a river roll, which in natural conditions is used by producers of lithophilic fish as a spawning ground.

Considering the presence of winter spawning migrations of fish producers, wintering pits 6 located downstream of the spawning complex will provide wintering for producers of both phytophilic and lithophilic fish.

When the required temperature regime occurs in the rivers and eggs mature, phytophilic fish producers fall into the flood spawning ground located in the low-flowing part of the upper pool 7.

Lithophilic fish spawn on the fleeting channel section of the spawning ground 3, which is a channel with gravel-pebble substrate 5, a speed and level regime similar to river rifts.

The need for wintering pits 6 is also due to the peculiarities of portioned spawning by some species of fish. In particular, some migratory passages, for example, a fisherman and a shemaya, spawning takes place in several stages, in the intervals between which the next portion of eggs ripens, they rest, eat in wintering pits located next to spawning grounds.

The developed design of the channel spawning complex, in addition to creating conditions for spawning, provides washing of the spawning tract in its channel part due to high flow velocities and flow turbulence. In addition, an intensive enrichment of water with oxygen takes place in the channel part of the spawning ground, which is necessary for the development of eggs and juvenile fish, and also helps to improve the quality of water in the river.

Claims (2)

1. The channel spawning complex, including the spawning ground in the upper pool of the complex, the channel of the spawning water channel of a trapezoidal cross section with elements of increased roughness at the bottom, characterized in that the water channel is formed by side dams that hamper the channel and the bottom threshold in the head part, and the bottom part of the channel section is made with a slope, and wintering pits are arranged at the end of the water supply tract. 2. The channel spawning complex according to claim 1, characterized in that the channel section of the water supply path is a channel spawning, and the height of the bottom threshold P in its head part does not exceed 1/3 of the depth of the stream H in the channel section.

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