SU660631A1 - Method of determining plant frost resistance - Google Patents

Description

I

The invention relates to the selection of plants for frost resistance.

A known rapid method is defined and frost-resistant, which consists in the fact that the pre-frozen (within 15-20 min at (- 1) - (-3) ° C) the cuttings from the green sheet are thawed at room temperature for one hour and The intensity of the afterglow is then measured, which is an indicator of frost resistance 1.

There is also known a method in which 7–9 day old seedlings grown in the light at + 18 ° C are subjected to low temperature stress (-4) - (-5), during which the induction kinetics are recorded from a seedling surface (in a specially designed chamber) afterglow. The nature of frost-resistance of seedlings is judged by the set of parameters for calculating the afterglow curves 2.

The disadvantages of the known methods are the low reliability of the results, the impossibility of distinguishing the frost resistance of varieties or hybrids belonging to one group, the death of the object being studied or severe damage to it, as a result

what happens is the loss of valuable breeding material.

The aim of the invention is to increase the reliability of the determination of frost resistance, simplify the method, preserve the studied breeding material.

A method is proposed for determining the frost resistance of plants, in which the frost resistance is determined by true COG assimilation by seedlings of plants grown from a 1 g sample of seeds in the phenophase of the onset of the appearance of the awl of the second leaf.

The method is carried out as follows.

20 pre-vzveschennyh seeds of test samples of standard-grade varieties are soaked for 6 hours and heated on the surface of foam discs with standardized holes (0.5 cm in diameter), floating in 500 ml glasses with Knop solution. To do this, the seeds are reinforced vertically (germ-down) in the holes of the filter paper on the surface of the floating foam disc. When germinating, the roots of each seedling fall through the normalized hole into the solution of Knon, and the filter paper provides the seeds in the afloat position. Glasses are placed in climatic chambers of any type - “Feytron - GDR and“ Warren Scherer - USA at 18 ° C, 16 hour photoperiod and illumination of 5-30 klx. The seedlings are grown to phenophase at the onset of the occurrence of the second leaf stiker, when the photosynthesis of the first leaf is maximum, and then analyzed. Usually, with illumination of 20 klx, this phenophase is reached on the seventh day of cultivation.

The speed of instinctive photosynthesis of the first leaf, according to which the frost tolerance of the seedlings is judged, is recorded according to the generally accepted scheme based on an infrared gas analyzer. A glass with a plant is placed under a sheet chamber, reinforced on a shaft, which is a hollow glass cap with two tongues for air inlet and outlet, and topped up with Knop nutrient solution until the foam plate of the cylindrical hole in the lower part of the leaf chamber is closed and airtight. With a device sensitivity of 200 ppm on the scale and using ambient air with a CO 2 concentration of 330 ppm, the air flow rate through the sheet chamber is selected such that the difference in concentration between the entrance to the sheet chamber and the exit from it is no more than 15-20 % of the COt content in the source air (the margin is the maximum allowable difference is 25%). The true assimilation rate is taken as the sum of the rates of apparent assimilation and COz emission after the light is turned off. The table shows the results of testing a number of grades-classifiers frost resistance in the above way.

The table shows that the higher the rate of photosynthesis of the sample, the greater its stability; so, if the sample photosynthesis is higher than that of the standard variety, then its score

sustainability will be greater than 10. Less resistant varieties will have less intensive photosynthesis and have a resistance score lower than 10. Varieties within one group using the proposed method were significantly different.

The frost resistance (in points) of a number of varieties of winter rye and wheat, determined by the rates of true assimilation of COj at 18 ° С and illumination of 22 klx, is relative.

Ozyma rye 1. Octo brska 65 SUSTAINABLE 2. Sunrise 1 Medium resistant 3. Belt Unstable Ozyma winter Wheat Resistant 1.Ul Novka 2. Mironovska 808 Medium stable 3. PPG-186 4. Avrora Low-resistant 2. Unstable Caucasus 6. Predgorna 2, 8 7, 9 ± 0.6, 7 5.5 ± 0.6, 4 10 8,, 6 5.2 ± 0.6, 4.210.2

Claims (2)

1. USSR author's certificate No. 217115, cl. A 01 H 1/04, 1968. 2. USSR author's certificate number 499856, cl. A 01 H 1/04, 1974.