RU210099U1 - DEVICE FOR CREATING HYDROBIONT HABITAT - Google Patents

Abstract

The utility model relates to fisheries and is designed to create habitats for fish and other aquatic biological resources. The device for creating habitats for hydrobionts includes a panel with a multi-row set of substrates - pins and holes suitable for habitation and reproduction of aquatic organisms, and the substrates are made in the form of landmarks that are designed to form a volumetric heterogeneity of the bottom relief developed into the water column in the reservoir, provide passage hydrobionts and water flow through the panel are evenly distributed over its area and have different quantitative parameters, the sum of which in each row and in each diagonal is constant. The purpose of the utility model is to create the most diverse landmarks on a local inhabited area for a favorable and interested sedentary habitat of the fish population. 1 ill.

Description

The utility model relates to fisheries and is designed to create habitats for fish and other aquatic biological resources.

A fish shelter is known according to patent RU No. 57758 U1 for utility model E02B 8/08, A01K 61/00, B.I. No. 30, 2006, which includes a frame structure in which conditions are created that distinguish it from the surrounding situation in the reservoir and are favorable for the orientation and habitation of fish in it. The shelter is designed to create a safe habitat for fish and other aquatic biological resources in a local area of a reservoir subject to anthropogenic impact. However, the disadvantage of this utility model is that it does not reveal the constructive essence of the prefabricated elements that make up the shelter.

A fishguard is also known according to patent RU No. 112811 U1 for a utility model E02B 8/08, A01K 61/00, B.I. No. 3, 2012, which includes a reef body made of a substrate suitable for the reproduction and habitation of aquatic organisms. It is designed to create favorable conditions for the reproduction and habitation of fish and other aquatic biological resources both on the surface of the substrate and in its thickness. However, the disadvantage of this utility model is that it also does not disclose the principles of arranging the thickness of the substrate, which is necessary for the favorable habitat of aquatic organisms.

Closest to the proposed technical solution is a device for spawning lithophilic fish according to A.S. USSR No. 1457870 A01K 61/00, B.I. 6, 1989, which is equipped with additional panels provided with pins of different heights, the height of which increases in the direction of the water flow. The purpose of this technical solution is to form a favorable hydraulic regime of the water flow in the bottom layer of a spawning ground free from pins. In the current control panel itself, the uniformity of the height increase of a single set of densely located pins forms a habitat zone for hydrobionts, mainly above its upper boundary and does not allow fish to properly use the bottom water column they have equipped.

The purpose of the utility model is to create the most diverse landmarks on a local inhabited area for a favorable and interested sedentary habitat of the fish population.

This goal is achieved by the fact that in the device for creating habitats for hydrobionts, which includes a panel with a multi-row set of substrates - pins and holes suitable for habitation and reproduction of aquatic organisms, the substrates are made in the form of landmarks that are designed to form volumetric heterogeneity of the bottom relief in the reservoir, developed into the water column, provide the passage of hydrobionts and water flow through the panel, are evenly distributed over its area and have different quantitative parameters, the sum of which in each row and in each diagonal is constant.

The essence of the utility model is illustrated by a drawing (Fig. 1), which shows an artificial reef, a general view.

A device for creating habitats for hydrobionts is a horizontal or vertical panel 1 of square, hexagonal, round or other regular shape, evenly divided into cells 2. Each of the cells contains a monolithic or prefabricated landmark 3 in the form of a vertical pin or a combination of pins made of a substrate suitable for habitation and reproduction of aquatic organisms, or a hole or a set of holes suitable for the flow of water and the passage of fish. Moreover, all landmarks 3 in all cells 2 have different quantitative parameters, for example, the height of a monolithic or the sum of prefabricated sets of landmark pins or the area of a single hole or the total area of a set of holes.

Moreover, the sum of their quantitative parameters in each row and in each diagonal of panel 1 is constant.

The guide pins 3 may have a density higher than that of water. In this case, they are rigidly attached to the panel 1. The pins 3 can also have a density below that of water. In this case, they are attached to the panel 1 as an anchor hinged or flexible connections.

An artificial reef is designed to form a volumetric heterogeneity of the bottom relief in the reservoir, developed into the water column. On the reef, hydrobionts live not only on the surface of different-sized landmarks-substrates 3, but also in the water space surrounding them. At the same time, a set of unevenly high landmark pins 3 creates the most diverse environment in the device, in which one or several individuals of hydrobionts have the opportunity to be located at the most comfortable depth for them at the moment, being in direct contact with the top (significant landmark or shelter) of pin 3 necessary for this height. Moreover, another individual or their group, located in other parts of panel 1 at other tops of pins 3, close in height to the most comfortable, is removed from it at a distance that allows you to fairly evenly distribute the fish over the entire area of panel 1 and thereby avoid their crowding. in one place of optimal stay. At the same time, fish have the opportunity, constantly moving within one local panel 1, to smoothly adjust the depth of a comfortable habitat layer without a long separation from the tops of landmarks 3 located in a water layer that is comfortable for them. As a result, in the volume of the water space, equipped with pins 3 of panel 1 of different heights, a non-chaotic, but quite regular movement of fish is formed, which evenly fills it.

The same happens in the case of using prefabricated landmarks 3, when in each cell 2 of panel 1 there are different numbers of them filling the water space of the corresponding cell 2 in different ways, which is also attractive to the inhabitants in different ways at the moment.

When external environmental conditions change, the preferences of the aquatic population of the reef may also change, and hydrobionts will occupy its new cells 2 with a different degree of saturation with their landmarks 3.

When panel 1 is made in the form of a vertical shield, additional landmarks 3 can be made both from horizontal pins 3, which work similarly to vertical pins 3, and from holes that allow fish and water currents to pass through the shield 1. On the one hand, this allows fish to move freely in the reef without going beyond it, and on the other hand, it improves and diversifies the rheogradient structure of the flow inside the reef, when hydrobionts also, without going beyond it, can choose habitats with the most favorable conditions for them by the hydraulic regime of the water flow.

Thus, in a relatively limited local area of the reservoir, favorable conditions are formed for the long-term habitation of a significant number of fish evenly distributed over it.

The placement of a set of several panels 1 on a local area of the reservoir further contributes to an increase in the number of inhabitants of the biotope equipped with landmarks 3.

When using floating pins 3, pelagic reef garlands are placed on panel 1. Behind each of them, a very diverse picture of the hydraulic shadows of the water current washing them is formed. At the same time, the different heights of the shelters 3 provide the possibility of finding behind them also a different number of individuals, that is, a different fish receiving capacity. So, for example, if fish currently prefer a wide range of habitat depths, they can be located not only at the top of the pin of the corresponding height, but also behind this whole pin, as well as behind higher pins. Therefore, fish as a shelter and a hunting ambush use not only the peaks, but also all the garlands, almost completely. As a result, the volume of the water space covered by pelagic landmarks developed throughout the entire depth of the water column increases significantly, and the fish population gets the opportunity to disperse also throughout the entire volume of the water area equipped with landmarks 3. This significantly increases not only the volume of habitable space, but also the number of its inhabitants.

Since, in order to prevent ice impact, stationary devices for creating habitats for hydrobionts in winter should be placed below the winter drawdown mark, in summer, as a rule, the uppermost layer of the reservoir remains insufficiently saturated with reef landmarks and substrates. At the same time, it is in the surface layer that the main drift of the plankton food resource is observed in summer. Therefore, if during this period it becomes attractive for fish to inhabit the upper, more flowing and feeding water layer, in which there is a shortage of sheltering landmarks, then competition for it intensifies. As a result, in the local area of the reservoir, the division of the population organized by the reef into:

- strong competitive elite individuals that occupy the most favorable and profitable water layers and landmarks for feeding, bordering on the transit surface layer;

- the main population, quite viable, but inferior to the elite, which is located in adjacent water layers, less comfortable, but quite fodder;

- weakened, diseased, that is, non-competitive and no longer viable individuals (outcasts), which are forced out of comfortable living conditions, and are forced either to initially settle in the near-bottom low-nutrient layer, or immediately rise to the surface and are washed out by the current from the reef biotope in the form of passively drifting ichthyoplankton and become prey to predators.

Thus, the reef site, equipped with a system of unevenly high landmarks-shelters, is not only a high-feeding place for favorable and long-term fish habitation, practically in all periods of the year, but also creates the necessary conditions for natural sanitary culling of non-viable individuals, ensuring the health and viability of the entire population. .

Claims (1)

A device for creating habitats for hydrobionts, including a panel with a multi-row set of substrates - pins and holes suitable for habitation and reproduction of aquatic organisms, characterized in that the substrates are made in the form of landmarks that are designed to form volumetric heterogeneity of the bottom relief in the reservoir, developed into a water thickness, provide the passage of hydrobionts and water flow through the panel, are evenly distributed over its area and have different quantitative parameters, the sum of which in each row and in each diagonal is constant.

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