RU172910U1 - A tool for laying soil samples of tissue and photo paper in the study of biological activity of the soil - Google Patents

Abstract

The utility model relates to agriculture, in particular to hand tools for conducting scientific research to determine the biological activity of the soil. A tool for laying soil samples of tissue and photo paper in the study of biological activity of the soil includes a transverse handle and a rectangular plate with a trapezoidal cross section. On one side of the plate, chamfers are made at the edges and risks are applied, and the other side is made flat. The transverse handle is rigidly attached to the plate. The tool is made of stainless steel.

Description

The utility model relates to agriculture, in particular, to hand tools for conducting research on. determination of the biological activity of the soil.

To determine the cellulolytic activity of the soil - by the method of Vostrov I.S. and Petrova A.N. [1], proteolytic activity of the soil - according to the methodology of Mishustina E.N., Nikitina D.N., Vostrova I.S. [2] provides for laying linen or photo paper in the soil with a bayonet shovel. A pit (cut) is dug with a shovel to the required depth. One of its walls is cleaned with a knife. A linen sheet or photo paper is applied to it and a hole (cut) is sealed so that the linen sheet or photo paper fits snugly against the soil wall. For this, the poured soil is compacted.

When laying tissue or photo paper samples with a bayonet spade, plants are removed on the occupied area of a dug soil section. In addition, in this case, violation and mixing of the soil of the studied plot occurs, which is unacceptable in the variants of experiments with non-reprocessing primary cultivation or without primary cultivation of the soil.

A second method is known for laying tissue samples and photo paper, which consists in making a slot with a depth of 20 cm with a shovel into which the sample is placed.

The disadvantage of using a shovel to form a gap in the second method is that the length of the blade of the bayonet shovel limits the depth of the bookmark of the test material. The gap in this case is uneven, which is associated with the shape of the shovel blade. Therefore, the soil wall has to be additionally leveled (cleaned) with a knife, which requires additional time and effort.

The closest solution is the Kolesov sword, or the Kolesov sowing sword [3] - a hand tool, a narrow steel shovel for planting seedlings and seedlings of forest species.

Kolesov’s sword is made of iron and consists of a plate and a rod. The plate has a length of 38 cm, a width of 10-13 cm, and a thickness from the top of 2.5-3 cm. The sides and lower end of the plate are honed. The rod (stem) is cylindrical, 58 cm long and about 2.5-3 cm in diameter. The upper end of the rod has a sleeve for a wooden handle about 36 cm long and 4 cm in diameter.

Kolesov’s sword is deepened into the soil and loosened away from itself towards itself, thus making a recess in the form of a slot with a width of at least 10 cm. A seedling with a bare root system is inserted into the slot. Then the sword is deepened into the ground at a distance of 8-10 cm from the first slit and, pulling the handle on itself, pinch the lower part of the root system, and pushing the handle away from itself - the upper part and the root neck.

The disadvantage of the Kolesov sword is that it is intended for planting seedlings and seedlings of forest crops (tree species) and for this its working plate 10-13 cm wide in cross section is made in radius with a ratio of 0.8-1.3 to its maximum width . The lower part of the blade has a trapezoidal shape with a ratio of small base to large, equal to 1 / 5-1 / 9, and a small base to a height of less than or equal to 1/5. The end of the blade is shifted forward relative to the axis of the handle. To give the blade stiffness, it has a segmented cross-section in cross-section, and its lower part has a rounded shape and therefore a gap with an uneven vertical wall is created using the Kolesov sword. The configuration of the blade does not provide easy penetration into the soil and working with a sword requires great muscular effort.

The purpose of creating a useful model is to simplify the design, facilitate and improve the quality of laying tissue samples and photo paper in the soil to determine the biological activity of the soil and reduce the disturbance of the soil layer.

In order to eliminate these shortcomings and solve the problem, a tool made of steel and consisting of a transverse handle and a rectangular plate is proposed.

In FIG. 1 shows a tool (front view), in FIG. 2 is a side view.

A tool for laying soil samples of tissue and photo paper consists of a transverse handle 1 and a rectangular plate 2 rigidly attached to it with a trapezoidal cross section. Chamfers are made on one side of the plate at the edges. A transverse handle and chamfers provide easier penetration of the tool into the soil. On the same side of the plate, risks 4 are applied, which allow you to control the depth of the laying of samples in the soil (10 cm, 20 cm, 30 cm). The opposite side of the plate is made flat, allows you to get a smooth surface of the plate, and consequently, the performed gap.

The tool is made of stainless steel, which does not allow the tool to bend during operation, increases its wear resistance.

The inventive tool works as follows. The tool is mounted on the surface of the soil from which the plant debris has been previously removed. The researcher presses on the handle 1, plunging the plate 2 with chamfers 3 into the soil to the required depth at risk 4. With high soil hardness, at the same time pressing on the handle 1 makes horizontal movements in order to expand the gap and facilitate deepening of the plate 2 into the soil. Then the plate 2 is removed from the soil. The test tissue or photo paper sample is placed in the slit obtained. Then, at a distance of 3-4 cm from the slot, the tool is again buried in the soil. In this case, a sample of tissue or photo paper is pressed tightly against the soil wall by the movement of the handle 1, and the gap in which the sample is located is filled up.

The proposed tool allows you to bookmark the test samples between rows and rows of crops with minimal disturbance of the soil cover and damage to crops, which is especially important when conducting studies in the options with tillage without turning the bed. In addition, this tool simplifies and facilitates the work of the researcher, allows you to quickly and easily create a gap with a smooth soil surface.

BIBLIOGRAPHY

1. Vostrov I.S., Petrova A.N. Determination of biological activity of the soil by various methods // Microbiology. - 1961. - T. 30. - Issue. 4. - S. 665-672.

2. Mishustin E.N., Nikitin D.I., Vostrov I.S. A direct method for determining the total protease activity of soil // Sat. doc. by the enzymatic activity of the soil. - Minsk .: Science and technology. - 1968 .-- S. 144-150.

3. Zaborovsky EP Forest crops. - M.: Gostekhlesizdat, 1938 .-- S. 212-213.

Claims (1)

A tool for laying soil samples of tissue and photo paper when studying the biological activity of the soil, including a transverse handle and a plate, characterized in that the plate is made of a rectangular shape with a trapezoidal cross section, with chamfers and risks applied on the sides of the plate and the other side applied made flat, while the transverse handle is rigidly attached to the plate.

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