RU1784150C - Device for studying the reactions of aquatic organisms to photic stimulus - Google Patents

Abstract

Usage: in hydrobiology for the maintenance and study of the reactions of aquatic organisms to a light stimulus. SUMMARY OF THE INVENTION, for ease of use, an installation comprising an aquarium, a light source and vertical partitions for dividing a portion of the volume of the aquarium into compartments further comprises filters mounted in a row on one of the side walls of the aquarium. Each filter is designed to transmit a light flux whose wavelength differs from the wavelength of the light flux transmitted by other filters. The light source is placed on the outside of the wall with light filters. Partitions are installed at the borders of the light filters, and each of them is made in the form of a trihedral prism. The faces of the prism facing the compartments are mirrored. The described design allows not only to study the reactions of organisms, but also to keep them in the aquarium for a long time, which increases usability and eliminates injury to organisms caused by their transplants from the aquarium to the aquarium during research 1 silt. THX

Description

The invention relates to hydrobiology, and in particular to devices designed for the maintenance and study of aquatic organisms in laboratory conditions

A known apparatus for studying the effect of light on aquatic organisms, including an aquarium and a light source with light filters.

The disadvantage of this technical solution is the inability to use it to determine the reactions of aquatic organisms to a light stimulus of a certain wavelength due to the absence of selectivity conditions for the studied organisms when several light stimuli of different wavelengths are studied on them

Also known is a device for studying the reactions of aquatic Organisms to a light stimulus, including an aquarium, a light source, and vertical partitions installed so that they divide part of the volume of the aquarium into compartments

The disadvantage of this installation is that in order to conduct studies of fish from the aquarium in which they are kept, it is necessary to transfer them to the device’s tank. When transferred, the fish experience additional stress and may be injured in their

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in turn, it may distort the results of studies in some cases. After carrying out the studies, the fish are put back into the aquarium in which they are kept. When re-examined at other hours of the day, the fish are put back into the tank of the device, i.e., the fish is transferred several times from the aquarium to the tank. The foregoing reduces the usability of the device.

The aim of the invention is to improve the usability.

This is achieved by the fact that on one of the side walls of the aquarium there are sequentially fixed a number of vertical filters, each of which is designed to pass the light flux, the wavelength of which differs from the wavelength of the light flux transmitted by other filters, the light source is placed on the outside of the wall with filters and the partitions are installed at the borders of the filters and each of them has the shape of a trihedral prism, while the faces of the prism facing the compartments are mirror-shaped.

The drawing shows the installation, top view,

The apparatus for studying the reactions of aquatic organisms to a light stimulus contains an aquarium 1 with a light source 2 and a reflector 3. On one of the vertical walls, light filters 4 are arranged vertically in series, each of which transmits a light flux of a certain wavelength different from the length of the light flux transmitted by other filters . Partitions are vertically installed along the vertical border 5 of the light filter connection, each of which has the shape of a trihedral prism b, forming a number of vertical compartments 7, and the sides 8 of the prisms 6 forming the enclosures 7 are mirrored.

The proposed installation is used as follows.

The studied aquatic organisms 9 are placed in an aquarium 1 filled with water. For example, aquarium fish, A light source is turned on. 2. A light stream entering the aquarium through light filters 4 color the water in each compartment 7 with a color of a certain wavelength. The mirrored sides of 8 prisms 6 contribute to a clearer separation of compartments 7. Aquatic organisms 9 migrate to compartments 7, which are colored with a wavelength that attracts them. Visually observe the concentration of aquatic organisms in compartments 7 having a color of water of a strictly defined wavelength. If necessary, the side walls of the aquarium 1, not equipped with light filters, can be fenced off (closed) with opaque screens, which eliminates the influence of extraneous light sources.

Repeating this process several times during the day will determine

the reaction of aquatic organisms to various light sources (i.e., different wavelengths) at different hours of the day.

In the process of research at all times of the day the fish are in the same

aquarium, which completely eliminates the possibility of injury.

Due to the presence of a reflector 3 enclosing a wall with light filters, when the light source 2 is switched off, there is no effect on the fish of the light flux of different wavelengths.

The invention is possible and appropriate to use in the field of hydrobiology, ichthyology, as well as aquariums with

the purpose of studying the physiological and pathological reactions of fish to various light stimuli, i.e. to light sources of various wavelengths,

Claims (1)

The claims A device for studying the reactions of aquatic organisms to a light stimulus, including an aquarium, a light source, and vertical partitions separating part of the volume of the aquarium in compartments, characterized in that, in order to improve ease of use, a number of vertical filters are sequentially fixed to one of the side walls of the aquarium, each of which is designed to pass a luminous flux, the wavelength of which differs from the wavelength of the luminous flux transmitted by other filters, the light source is placed on the outer side of the wall with filters, and the partitions are mounted at the borders of the light filters, and each of them has the shape of a trihedral prism while the faces of the prisms facing the compartments are made mirrored s 8 -9 1