RU176876U1 - Device for assessing the toxicity of water and water extracts of various environments - Google Patents

Abstract

The utility model relates to the field of environmental protection and can be used in analytical and toxicological laboratories for the operational control of the toxicity of water, water extracts of bottom sediments and soils by biotesting by chemotaxis of ciliates. The device contains two plates mounted on top of one another and glued together. Three through holes and two through bridges are made in the upper plate connecting the central hole with two side ones, and three cells with grooves are formed on the upper surface of the glued plates connecting the central cell with the side cells. Side cells have the same volume and are located at the same distance from the central cell. The plates are made of a transparent material, such as plexiglass. The advantage of the utility model is the simplicity of studies and more accurate registration of ciliates that have moved to the control and test water, which significantly increases the accuracy of assessing the toxicity of water or water extracts from bottom sediments and soils.

Description

The proposed utility model relates to the field of environmental protection and can be used in analytical and toxicological laboratories for the operational control of the toxicity of water, water extracts of bottom sediments and soils by biotesting by cot chemotaxis.

The known device "Concentrate Biotester-2M" entered in the State Register of measuring instruments of the Russian Federation under No. 29189-05, Certificate RU.C.31001.A. No. 2057, which is a specialized pulsed photometer designed for the operational control of toxicity. The device includes two optical cuvettes, a holder for cuvettes and an interface kit IBM-PC with the ability to connect to any computer. Determination of the toxicity of the media in the device is based on the specific reaction of the ciliates-shoe (chemotaxis), to the presence of a hazardous chemical. A suspension of ciliates is placed in the lower part of two vertical optical cuvettes, and the test sample is layered on top - in the first cuvette, and a control sample in the second cuvette. All ciliates tend to move into a clean environment and swim there in 15-20 minutes. The relative decrease in the ciliates that emerged in the upper part of the cuvette compared with the “control suspension” determines the toxicity index.

The disadvantage of this device is the layering of suspended ciliates of the control and test samples, which leads to mixing of the layers in both cuvettes, blurring the edges between them, the uncertainty of information about the moving ciliates, and, accordingly, the accuracy of the toxicity assessment of the test medium is reduced.

The objective of the utility model is to increase the accuracy of the toxicity assessment of the studied environments and simplify the assessment.

The technical result is the simplicity of studies and more accurate registration of ciliates that have moved into the control and test water, which significantly increases the accuracy of the assessment of water toxicity.

The solution of this technical problem is achieved by the fact that in the device for determining the toxicity of water, containing two plates mounted on top of each other and glued, three through holes and two through bridges are made in the upper plate connecting the central hole with two side holes, while on the upper surface glued plates form three cells with grooves connecting the central cell to the side cells, which have the same volume and are located at the same distance from the central cell. In addition, the plates are made of a transparent material, such as plexiglass.

The implementation of the cells (containers) for samples in the plates ensures the stability of the device during the measurement process.

The presence of separate cells for suspension of ciliates, control and test samples provides certainty of information about ciliates that have moved to the side cells, and, thereby, improves the accuracy of determining the toxicity of the tested water.

The presence of one cell (capacity) for introducing a certain number of ciliates simplifies and facilitates biotesting in comparison with the well-known biotester, where a certain number of ciliates must be introduced into two cuvettes - with a control and a test sample.

In FIG. 1 shows a device, a General view.

The device contains two glued plates 1, 2, made of a transparent material, such as plexiglass. In the upper plate 1 there are three through holes and two through jumpers connecting the central hole with two side holes. In this case, three cells 3, 4, 5 are formed in the glued plates with grooves 6, 7 connecting the central cell 3 with the side 4, 5. Two side cells 4, 5 have the same volume and are located at the same distance from the central cell 3.

The device operates as follows.

A uterine culture of ciliates, for example 20-30 pieces, is placed in a central cell with a pipette. Control (clean water) is placed in one of the side cells 4 and the groove 6 connecting these cells 3, 4 is filled with this water, and the toxicity water tested for toxicity is placed in the other side cell 5 and the groove 7 connecting this cell 5 with the central 3 is filled test water. The device is placed under a binocular magnifier and after 15-20 minutes. observe the ciliates that have moved to the lateral cells 4, 5. Calculate the percentage of ciliates moved to the control and test water. The percentage obtained is used to evaluate the toxicity of the test water. The binocular magnifier is equipped with a digital camera, which is designed to enter the observed image in any PC, where the image is recorded using the software in the time interval, which provides documentation of the movement of ciliates, facilitates and increases the reliability of the assessment.

The proposed device is cheap, has a simple design, can be manufactured in any laboratory engaged in biotesting with ciliates.

The advantage of the proposed device is the greater reliability of the information received, the simplification of research, the reduction of material and financial expenses, and through the use of a magnifier with a digital camera and data input into a PC, the process documentation and the possibility of long-term storage of biotesting results are also provided.

Claims (2)

1. A device for determining the toxicity of water and water extracts of various media, containing two plates mounted one on the other and glued, and in the upper plate there are three through holes and two through jumpers connecting the central hole with two side holes, while on the upper surface glued three cells with grooves connecting the central cell to the side cells, which have the same volume and are located at the same distance from the central cell, are formed in the plates. 2. The device according to claim 1, characterized in that the plates are made of a transparent material, such as plexiglass.

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