RU2234524C2 - Method for chemical melioration of acid soil - Google Patents

Abstract

FIELD: agricultural chemistry, agriculture.

SUBSTANCE: invention can be used for elimination of excess acidity of soils. Method involves treatment of soil by electroactivated catholyte solution with pH value 11-12 and oxidative-reductive potential (-800)-(-900) mV in the maximal dose up to 23% of the soil volume. Invention solves the problem for rapid and strictly dosed deoxidation of soils being without negative adverse effects.

EFFECT: improved method for chemical melioration.

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Description

The invention relates to the field of agricultural chemistry and can be used to eliminate excessive soil acidity.

There are various agrochemical methods for eliminating excessive acidity - liming; the introduction of organic or phosphate fertilizers and chelating agents; phosphorizing and making bone meal; application of molybdenum and fertilizers containing heavy metals; silicification; gypsum and neutralization of mineral fertilizers.

One of the main methods for improving the chemical properties of soils with acid reaction is their liming (adopted as a prototype) / 1 /. This method has several disadvantages. With a single application of calcium carbonate in the calculation of 7-8 tons per 1 ha, the reclamation effect lasts for 2-3 years due to poor dissolution of this salt in water. In addition, after the absorption of calcium cations by the soil complexes, carbon dioxide accumulates in the solution, i.e. calcium carbonate can manifest itself under certain conditions as a physiologically acidic fertilizer. This greatly reduces the reclamation effect of the entire event.

The present invention solves the problem of fast, strictly dosed without negative side effects of deoxidation of soils.

This is achieved by the fact that in the method of chemical reclamation of acidic soils, according to the invention, the soil is treated with an electroactivated catholytic solution with pH 11-12 and redox potential (ORP) of -800 - 900 mV in a maximum dose of up to 23% of the volume of the soil horizon, moreover, the catholyte is prepared on the basis of sodium chloride electrolytes with STEL-10AK serial devices.

The proposed method of deoxidation of acidic soils by electroactivated cationic solutions has an instant and strictly dosed effect, it can be used at any time during the growing season. In addition to the deoxidation effect, this method has the effect of converting physiologically acidic fertilizers (for example, potassium chloride) into physiologically alkaline, which allows the use of this fertilizer on acidic soils with a large reclamation effect. In general, the invention allows to organize a new integrated system of fertilizer application with the reclamation effect of soil deoxidation.

An example implementation of the method.

The gray forest soil was treated with a catholytic solution with a pH of 11-12 and an ORP of -800-900 mV, prepared on the basis of sodium chloride electrolytes using STEL-10AK serial devices. The solution flow rate was used - 23% of the soil volume. A sample was taken at a depth of 20 cm, the results of the study of which are shown in the table in comparison with the parameters of the initial sample.

An analysis of the data allows us to conclude that a single treatment of gray forest soils with catholytic solutions at the maximum possible dose of 23% of the soil horizon volume allows us to shift the soil acidity by 2.6 units towards the optimum for growing most crops, significantly (by 40-50% ) improves the structure of soils while maintaining their water resistance.

Similar data were obtained on the deoxidation of alkaline chernozems and podzolic loamy soils. The only limitation is the level of soil volumetric capacity - 40% and higher.

Sources of information

1. T. Palaveev, T. Totev. Soil acidity and methods for its elimination, - M .: Kolos, 1983. p. 62.

Claims (1)

The chemical reclamation method of acidic soils, characterized in that the soil is treated with an electroactivated catholytic solution with pH 11-12, redox potential (ORP) of 800-900 mV at a maximum dose of 23% of the soil volume.