SU1645893A1 - Soil fertility determination method - Google Patents

Abstract

The invention relates to agriculture, soil science, in particular, to methods of operative control over soil properties, for example, after land reclamation. The aim of the invention is to reduce the time of the study and improve the accuracy of the determination. In the method of determining soil fertility by sprouting indicator plants and determining soil fertility by apalite of plant life results, germination is carried out in an optically transparent, hermetically sealed chamber with artificial multiple alternation of illumination and darkening in a time ratio of 4.5-5.2: 1 and control intra-chamber oxygen and / or carbon dioxide after illumination and after darkening. Plant viability results are evaluated by the ratio of the gas content after illumination and after darkening. The method makes it possible to increase the accuracy and shorten the time for determining the pH, soil. g C /)

Description

The invention relates to agriculture, soil science, in particular, to methods of operative control over soil properties, for example, after land reclamation.

The purpose of the invention is to reduce the time of the study and improve the accuracy of determination. Example. An undisturbed sample of ameliorated sod-podzolic soil in an amount of 3 kg was placed in a sealed chamber made of organic glass with a volume of 20 liters and pre-moistened to 78.3%. 5-day barley sprouts were planted in the soil sample in the amount of

25 pcs., Held for 2 hours, carbon dioxide was blown out of the cylinder through the sampling fitting for 1 min. The carbon dioxide supply was cut off and a sample of intracameral air was taken for analysis with a measuring syringe. Air analysis is performed using a VTI-2 brand gas analyzer. The oxygen content in the air inside the chamber is 0.242 g / l, carbon dioxide - 0.0264 g / l. The cells were irradiated with a fluorescent lamp of the LL-130 brand for 62 minutes. after which the illumination was stopped and a sample of air was taken for analysis with the aid of a measuring syringe. The oxygen content was 0.276 g / l carbon U

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acid gas - 0.0231 g / n. They closed the cameras with a black cap and held for 12.9 minutes. In this case, the ratio of the times of illumination and darkening is 4.8: 1. When the ratio is less than 4.5: 1, the relative determination error increases, and if the ratio is more than 5.2: 1, its duration increases. Remove the black cap and take air samples for analysis. The oxygen content was 0.263 g / l, the carbon dioxide content was 0.0248 g / l. The procedure was repeated, keeping the illumination time 62 minutes, and darkening time 12.8 minutes. With an atom after illumination (the oxygen content was 0.272 g / l, the carbon dioxide content was 0.0237 g / l, after darkening the oxygen content was 0.258 g / l, the carbon dioxide content

gas - 0,0243 g / l. After that, the procedure was repeated again, maintaining all the parameters as before. After the lighting stage, the oxygen content was 0.266 g / l, carbon dioxide — 0.0234, after darkening the oxygen content was 0.252 g / l, and the carbon dioxide content — 0.0241 g / l. Repeat the procedure again. This time after illumination, the oxygen content was 0.257 g / l, carbon dioxide - 0.0235 g / l, after darkening the oxygen content - 0.244 g / l, carbon dioxide - 0.0239 g / l.

For each batch, the ratio of gas content after each stage was determined. The resulting ratios are respectively for oxygen 0.0276: 0,, 053; 0.272: 0.258 1.054, 0.266: 0.252 1.055, 0.257:,: 0.244 1.053 (average - 1.054), for carbon dioxide: 0.0231: 0.0248-0.931, 0.0237: 0.02433 0.975; 0.0234: 0.0241 0.971, 0.0235:: 0.0239 0.983 (mean 0.965). The higher the fertility of the soil, the greater the deviation of the ratio of gas concentrations in the modes of lighting and darkening from the unit is characterized by this soil. Using the above ratio according to the calibration dependence, the value of the fertility of the tested soil was evaluated.

A reference sample of chernozem containing 13% humus was taken to build a calibration curve. Made a mixture of this reference sample with moraine sand such ob8934

at one time so that the content of the reference sample is gradually reduced. The ratio of the content of oxygen and carbonate gata after the stages of illumination and darkening was determined and a calibration dependence was constructed, choosing the reference sample of chernozem as the reference value of fertility.

e Calibration dependence can be constructed on one indicator of gas exchange - the content of either oxygen or carbon dioxide. When using both indicators occurs

5 is an additional opportunity to improve the accuracy of the analysis. Fertility is estimated in relative (relative to reference soil) units. If we take the value of the fertility of the reference sample for 10, then, in accordance with the calibration dependence, the value of the fertility of the test sod-podzolic soil after amelioration is 5.3. The value of podorodi

5, the non-meliorated analogue of the test soil in relative units was 3.7.

Consequently, after land reclamation, the fertility of sod Q in the podzolic soil increased significantly (from 3.7 to 5.3), which indicates a high quality of amelioration.

Compared with the prototype, the proposed method can significantly improve the accuracy of determining the fertility of the soil, as well as reduce the duration of the analysis.

Claims (1)

Invention Formula The method of determining soil fertility by sprouting indicator plants on a soil sample and determining soil fertility by analyzing plant life results, characterized in that, in order to reduce the time of the study and improve the accuracy of the determination, germination is carried out in an optically transparent hermetically sealed chamber with artificial multiple alternation of illumination and dimming in time ratio (4.5-5.2): 1 and control of the intra-chamber oxygen content and / or 5 after illumination and after darkening, and plant viability results are evaluated by the ratio of gas content after illumination and after darkening. five 0 five 0