RU2567155C1 - Method of controlling erosion hazard of rain - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: filling of soil sample pores with the coloured water is carried out. The soil sample is irrigated with raindrops. The radius of scattering of the coloured droplets of the pore water of the sample is recorded and measured. The erosion hazard of rain is determined.

EFFECT: increase in accuracy of determining the erosion hazard.

Description

The invention relates to agriculture and can be used to control the erosion hazard of rain.

There are many ways to control the erosion hazard of rain (Methods of research of soil water erosion. - Chisinau: 1976. -P.129-136), (Hydrotechnics and land reclamation. -Sofia, 1983. - No. 7. - P.21-23).

A disadvantage of the known methods is the high complexity of controlling the erosion hazard of rain.

The closest in purpose and set of essential technical features to the proposed technical solution is a method of controlling the erosion hazard of rain, including watering with drops of a soil sample, measuring the radius of expansion of soil particles and controlling the erosion hazard of rain (Zhigimont Yu.G. Experimental study of the process of drip soil erosion / Materials of the scientific and technical student conference “The role of young scientists in the modernization of reclamation science.” - M .: FSBEI HPE MGUP, 2011. - P. 59-66).

The disadvantage of this method is the limited functionality that does not allow to evaluate the effect of pore moisture on the expansion of soil particles.

The purpose of the invention is the expansion of the assessment of the action of pore moisture on the expansion of soil particles.

The proposed method expands the assessment of the action of pore moisture on the expansion of soil particles by wetting the soil sample with colored water to the level of least moisture capacity and fixing the expansion of colored water droplets.

The essence of the method for controlling the erosion hazard of rain, including watering the soil sample with drops, measuring the radius of expansion of soil particles and determining the erosion effect of rain, is that before watering the soil sample, the pores of the soil are filled with colored water and the erosion hazard of rain is determined by fixing the radius of spread of the painted drops of pore water of the sample.

The method is implemented as follows. A soil sample is placed on a horizontal surface in the center of the target substrate with marked concentric circles. The soil sample is moistened with colored water to the level of least moisture capacity. Single drops of rain are applied to the center of the soil sample and the erosion hazard of rain is recorded when colored water drops fly apart.

Colored water is in the pores of the soil sample. The expansion of colored drops of pore water characterizes the deep destruction of the soil structure by rain drops and its erosion hazard. The value of the least moisture capacity depends on the type of soil and varies from 6% for sandy soils to 32% of the volume for clay soils. Water is stained with tetrazyl-4,4-diaminotriphenylmethane oxalate and other aniline dyes, beetroot juice, and blueberries. The concentration of the dye in the water is set within 1-3%. When the dye concentration in water is less than 1%, it is difficult to fix the spread of colored water droplets. At a dye concentration in water of more than 3%, the solution changes the properties of the soil sample.

The diameter of the soil sample is at least 40 mm. With a smaller diameter, edge effects are manifested. The increase in diameter increases the complexity of the work.

An example implementation of the proposed method. The soddy-podzolic soil was studied; the average loam was found in terms of its mechanical composition. The smallest moisture capacity - 29% of the volume. The diameter of the soil sample is 45 mm. The soil sample was installed in the center of the target with a diameter of 45 cm. The soil sample was moistened with colored water to the lowest moisture capacity of 29% of the volume. Water was stained with tetraethyl-4,4-diaminotriphenylmethane oxalate to a concentration of 1.5%. Single drops of rain were applied to the soil sample. The appearance of colored drops of pore water on the target was recorded, which indicates a high erosion hazard of rain. The repetition of the experiment is fivefold.

Claims (1)

A method of controlling the erosion hazard of rain, including watering the soil sample with drops, measuring the radius of expansion of soil particles and determining the erosion effect of rain, characterized in that before watering the soil sample, the pores of the soil are filled with colored water, and the erosion hazard of rain is determined by fixing the radius of the spread of colored drops pore water sample.