SU1709956A1 - Method for estimating drought-resistance of plants - Google Patents

Abstract

The invention relates to agriculture and can be used in the practice of crop production, in breeding and genetic work in the assessment mode and drought tolerance of plants. The purpose of the invention is to improve accuracy. The amount of free and dense water is determined in the leaves of the plants. Drought tolerance is assessed by the ratio of the second indicator to the first, while the higher this indicator, the more drought-resistant the plant. 1 tab., 1 Il.

Description

The invention relates to agriculture and can be used in the cultivation of plants, in

selection and research work in assessing the water regime and drought resistance of plants.

The aim of the invention is to improve the accuracy of the method.

The drawing shows a graph of the temperature of the cut when it is heated.

The method consists in that the water contained in the leaves of the plants is divided into three fractions (free, loose, and densely bound). Fractions are determined by thermogram of moisture evaporation under the influence of heat. To speed up the decontamination process, leaf cuttings are exposed to heat with a linearly increasing temperature from 20-25 to 100 ° C. At the same time, a thermogram is recorded using a thermocouple and a recording potentiometer pressed to the cutting. Due to the different amount of water content, which is in unequal states, and the magnitude of the affecting temperature and, accordingly, different intensity of dehydration (evaporation), the cutting temperature changes as shown in the drawing. The amount of water evaporated in the heating areas AB (free water) and DM (dense water) is determined. Drought resistance has a direct correlation with the ratio of densely bound water to free water, i.e. the more this ratio, the more drought resistant the plant.

To implement the method, it is necessary to assemble an installation consisting of a self-recording potentiometer, a heating element and a Dewar vessel with ice. Pre-mined, the temperature of the surface of the heating element increases linearly with a gradient of 3-5 seconds, starting from 20-25 to 100 ° C. Leaf for the study is selected from the middle Russ. Cutting of a certain size (24 cm) is made from the selected sheet so that the midrib does not get into the cutting. Immediately weigh the carving on torsion scales. Press the die cut after weighing to the surface of the heater. One end of the thermocouple is fed to the cutting surface.

the second end of which is inserted into the melting ice. A thermocouple is connected to a recording potentiometer for recording the cutting temperature. Include heating carving. When the temperature reaches to the value corresponding to point B in the drawing, the heating is turned off and the cutting is quickly weighed. Then the cutting is again pressed to the heater and the heating is continued. When the temperature reaches the value corresponding to point C on the graph, the heating is switched off again and the cutting is weighed. After that, the cutting is dried to constant weight in an oven at 105 ° C. The weight lost by punching in the drying cabinet is equal to the density of the bound water, which is marked in the drawing by the length of DM. The amount of water lost by the notches in the heating section AB and DM is converted to a percentage of the total amount of water contained in the notches. Find the ratio of lost moisture in the segment of the DM to the moisture lost in the segment AB (in percent). A value is obtained which is in direct correlation with the drought resistance of plants.

The table shows the measurement results for five plants, the change in drought tolerance at

evaluation by this method compared with the known.

As can be seen from the table, the content of free water has an inverse, and tightly bound water has a direct correlation with drought tolerance. If one takes the ratio of densely bound water to free water, the resolution of assessing the resistance of plants increases. If we take the ratio of all associated {loose plus plus dense water) water to free water, as in the well-known method, accuracy and resolution are reduced, because loose water does not have a permanent correlation with the drought resistance of plants.

Claims (1)

DETAILED DESCRIPTION OF THE INVENTION The method for assessing drought tolerance of plants, including the quantitative determination of water fractions in different conditions in leaves, characterized in that, in order to improve the accuracy of the method, the amount of free and tightly bound water is determined, and drought tolerance is evaluated with respect to to the first, while the higher this indicator, the more drought-resistant plant. Table continuation 360 300 2W t tj f 120 60 30 40 50 60 70 Temperature, ° С 80 90 100