SU1606034A1 - Lysimetric device - Google Patents

Abstract

The invention relates to agriculture and improves the accuracy of the selection of soil solution due to the removal of groundwater retention and disruption of natural water exchange. The goal is to improve the accuracy of sampling by ensuring natural water exchange. The device consists of a perforated hollow cylindrical case 1 over the entire surface, a vacuum tube 2 placed inside the filter case 3, a perforated vacuum tube 4 entering the filter, and a layer of glass fabric 5. To pick up the soil solution, the end of the vacuum tube above the soil surface It is connected to a vacuum pump through a two-necked collection flask. Under the action of dilution, the soil solution from the soil adjacent to the filter through a perforated housing, glass wool and fiberglass enters the vacuum tube, through which it is sent to the collector. 3 il.

Description

(21) 4653811 / 30-15 (22) 02.23.89 (46) 15.11.90. Bul.M; 42

(71) Ukrainian Research Institute for Soil Science and Agrochemistry. A.N. Sokolovsky

(72) G.M. Balonenko, I.Ya. Goncharov, A.Ya. Demidienko and D.V. Shtepa (53) 631.347.1 (088.8)

(56) USSR Author's Certificate No. 481833. class. G 01 N 33/24, 1971.

Vlasov I.V.-Vestnik of Leningrad State University. 1978, №21, biologists, vol. 4, s. 140-141.

(54) LIZIMETRIC DEVICE

(57) The invention relates to agriculture and improves the accuracy of the selection of a soil solution due to the removal of groundwater recharge and violation

natural water exchange. The goal is to improve the accuracy of sampling due to the protection of natural water exchange. The device consists of a perforated over the entire surface of the hollow cylindrical body 1, a vacuum tube 2. placed inside the filter body 3, a perforated vacuum tube 4 entering the filter, and a layer of fiberglass 5. For picking up the soil solution, the end of the vacuum tube It is connected to a vacuum pump through a two-necked collection flask. Under the action of dilution, the soil solution from the soil adjacent to the filter through the perforated case, glass wool and fiberglass enters the vacuum tube through which it is sent to the collector. 3 or 1 tab.

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The invention relates to agriculture, in particular, to land reclamation soil science, and can be used in the selection of soil solutions on excessively wetted soils with rice paddies.

The purpose of the invention is to improve the accuracy of sampling by ensuring natural water exchange.

Fig. 1 shows schematically the proposed lysimetric device for the selection of a soil solution: Fig. 2 shows the same general view; Fig. 3 is a scheme for obtaining a soil solution.

The lysimetric soil solution solution consists of a cylindrical perforated body 1, a vacuum tube 2 placed inside a glass wool filter body 3, a perforated vacuum tube 4 entering the filter, and a layer of glass fabric 5.

The lysimetric device operates as follows.

A well or a soil section is preliminarily prepared in the soil, then the device for solution removal is lowered and covered with soil so that the perforated end of the vacuum tube is above the surface of the water or soil (Fig. 3). For sampling the soil solution, the end of the vacuum tube 4 is connected to the vacuum pump through a two-neck collection tube. Under the action of dilution of the soil solution from the soil adjacent to the filter through the perforated housing 1, the glass cloth enters the vacuum tube 4, through which it is sent to the collector (receiver). The ratio of the full surface of the body to its perforated part is established experimentally and is in the range of 1: 0.45-1: 0.50. With such a ratio, optimal and water exchange occurs in wet soil and does not create obstacles to the natural movement of the roots of various agricultural land.

cultures in the lower horizons, and, consequently, the chemistry of the samples taken is not disturbed. In addition, at this ratio, the device is characterized by HIGH. THEM strength properties when operating in field conditions.

Under such conditions, a peculiar water-salt regime and water exchange between the soil, the plant, and the soil solution develops, which during the whole growing season is constantly transformed and modified. A device has been developed that allows for rice irrigation systems where the soil is mainly

saline and have excessive moistening; select lysimetric waters with a steady-state water-salt composition and, at the same time, there is no silting up of the instrument housing openings.

The water-salt balance of the soil composition at a different ratio of perforation to the full surface of the device is presented in the table.

From the data it follows that

when the ratio of perforation to the total surface decreases, the amount of salts in the soil solution decreases due to the sedimentation of the pores with fine silt particles and sedimentation and enveloping of the cylinder body with the root system of plants leading to a decrease in the accuracy of the experiment.

Claims (1)

Claims of the invention A lysimetric device comprising a perforated body and a tube for removing boron from moisture, characterized in that, in order to increase the accuracy of the samples taken by ensuring natural exchange, the body is made in the form of a closed hollow cylinder while the total perforation area refers to the total surface area of the cylinder as 0.45: 1 to 0.50: 1. To SuKi / yfiHOMy pump soda layer For an awesome / pond Pershchorobanny case nepqjopupaiaHHbtu / aznets of the Saxy tube Glass Wool