RU212010U1 - Installation for fixing artificial substrates in the study of periphyton - Google Patents

Abstract

The installation for fixing artificial substrates in the study of periphyton belongs to the field of equipment used in environmental studies in order to obtain qualitative and quantitative characteristics of periphyton.

Installation for fixing artificial substrates in the study of periphyton, including a rectangular glass slide 1 mm thick, differs in that it includes a cylinder with holes, a cylindrical support needle, made with the possibility of installation in the ground of a reservoir, a U-shaped plate attached with bolts to the cylinder with holes, one central hole and two side holes placed on the shelves of the U-shaped plate, and a perforated plate is attached to the latter, on which a glass slide is installed, fixed with a fixing plate. 6 ill.

Description

The installation for fixing artificial substrates in the study of periphyton belongs to the field of equipment used in environmental studies in order to obtain qualitative and quantitative characteristics of periphyton.

Periphyton is an ecotopic group of hydrobionts (Closterium spp. (Fig. 3), Pediastrum spp. (Fig. 4), Merismopedia spp. (Fig. 5), Alonella spp. (Fig. 6) water - solid substrates of various origins (stones, higher aquatic plants, animal covers, flooded large debris, piles, ship bottoms, etc.) [1].

Periphyton, due to its confinement to the substrate, plays a primary role in the assessment of water quality, allows you to judge the average pollution over a certain period of time. Fouling sampling is carried out from natural and artificial substrates. Slides are used as artificial substrates [2]. The method of artificial substrates makes it possible to obtain quantitative characteristics of the periphyton, and also provides a wide opportunity for conducting an experiment and assessing the saprobity of a reservoir [3].

Recommendations are known in which it is recommended to use glass slides for collection as artificial substrates. Glasses are immersed in water using various installations. It is recommended to use for these purposes foam plastic floats, rubber stoppers, into the slots of which “fouling glass” is inserted at one end. Floats and plugs with glasses are put on a moored cable or a long pin driven into the ground, a pole, a tube, etc. The immersion depth is determined depending on the transparency of the water [4]. Currently, there are no patents for installations for fixing artificial substrates in the study of periphyton.

The main disadvantages of the existing recommendations are: low strength of fixing installations in the ground; the complexity of assembling installations from improvised materials; frequent loss of slide when using foam floats and rubber stoppers.

Known glass slide for micropreparations size 46×26 (GOST 9284-59) and a screw mooring pin (RF Patent for the invention No. 138182, publ. 10.03.2014). These devices were chosen as a prototype.

The technical result of the application of the utility model is to ensure reliable fixation of artificial substrates, which makes it possible to obtain representative samples of periphyton.

The technical result is achieved due to the fact that the installation for fixing artificial substrates in the study of periphyton, including a rectangular glass slide 1 mm thick, installed in the soil of the reservoir using a cylindrical reference needle, is characterized in that it includes a cylinder with holes, to which it is attached by means of bolts U-shaped plate, on which there is one central hole and two side holes placed on the shelves of the U-shaped plate, and a perforated plate is attached to the latter, on which a glass slide is installed, fixed with a fixing plate.

The essence of the utility model is illustrated by the drawings, where in Fig. 1 - general view of the installation; fig. 2 - section A-A; fig. 3 - micrograph of Closterium spp. (magnification ×400, circled); fig. 4 - micrograph of Pediastrum spp. (magnification ×400, circled); fig. 5 - photomicrograph of Merismopedia spp. (magnification ×400, circled); fig. 6 - micrograph of Alonella spp. (Magnification ×400, circled).

An apparatus for fixing artificial substrates in the study of periphyton consists of the following parts: a glass slide 1, a cylindrical reference needle 2, a cylinder with holes 3, a U-shaped plate 4, on which there is one central hole 5 and two side holes 6, a perforated plate 7, fixing plate 8.

The device for studying periphyton fouling on artificial substrates is used as follows: a cylindrical support needle 2 is fixed in a cylinder with holes 3 with a bolt; attach the U-shaped plate 4, through the central hole 5 with a bolt, to the cylinder with holes 3; perforated plate 7 is bolted to two faces of the upper and lower U-shaped plate 4; the glass slide 1 is placed on the perforated plate 7 and fixed with the fixing plate 8 by means of bolts. The assembled device was fixed in the ground with a cylindrical support needle 2 driven in. The immersion depth was determined depending on the transparency of the water. The duration of the exposure of the glass slide 1 is determined by the geographical location, water quality of the studied water body, the season of the year and the purpose of the study.

An apparatus for studying periphyton on artificial substrates was used in hydrobiological studies on the Kotorosl River (Russia, Yaroslavl region). The immersion depth of the installation is 0.9 m. The exposure time of the glass slide is 1 five days. A total of 3 samples were collected. Microscopic examination of glass slides 1 was carried out under laboratory conditions. 32 organisms were found in the composition of the periphyton of the reservoir. Some of the discovered organisms are presented in microphotographs: in Fig. 3 is a micrograph of a unicellular charophy Closterium spp. photographed on slide 1 (×400 magnification); in fig. 4 is a photomicrograph of the green alga Pediastrum spp. photographed on slide 1 (×400 magnification); in fig. 5 is a photomicrograph of the blue-green algae Merismopedia spp. photographed on slide 1 (×400 magnification); in fig. 6 is a micrograph of a crustacean (family Chydoridae) Alonella spp., which was photographed on slide 1 (×400 magnification).

The materials obtained in the course of the study make it possible to judge the quantitative characteristics of the periphyton, and also provide ample opportunity for the experiment.

The utility model - a device for studying periphyton on artificial substrates - has the following advantages:

1. Possibility to adjust the immersion depth of the installation depending on the characteristics of the soil and the speed of the water flow.

2. Installation allows you to assemble it in the field. The possibility of parsing makes the model convenient for transportation.

3. It is possible to adjust the immersion depth of the slide depending on the transparency of the water.

4. Reliable fixation of the slide prevents the loss of the latter during research.

Sources of information

1. Protasov A.A. Periphyton as an ecotopic grouping of hydrobionts // Journal of the Siberian Federal University. Series: Biology. - 2010. - V. 3, No. 1. - S. 40-56.

2. Gold Z.G., Gold V.M. General hydrobiology: teaching aid // Siberian Federal University, 2013. P. 148.

3. Sharipova M.Yu. Composition and ecological-coenotic features of epiphytic algae in river ecosystems as ectonic communities // Bulletin of OSU, 2005. No. 6. pp. 123-126.

4. Bataeva Yu.V., Dzerzhinskaya I.S. Sampling for microbiological studies from natural and industrial environments for independent work of students: teaching aid // Astrakhan State University, Astrakhan University Publishing House, 2015. P. 132.

Claims (1)

Installation for fixing artificial substrates in the study of periphyton, including a rectangular glass slide 1 mm thick, characterized in that it includes a cylinder with holes, a cylindrical support needle, made with the possibility of installation in the soil of a reservoir, a U-shaped plate attached with bolts to the cylinder with holes, one central hole and two side holes placed on the shelves of the U-shaped plate, and a perforated plate is attached to the latter, on which a glass slide is installed, fixed with a fixing plate.

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