SU368527A1 - METHOD OF DIAGNOSING THE STABILITY OF LEAVES OF MAIZE TO A STEAM MOTOR - Google Patents

Description

one

The invention relates to the field of agriculture, in particular to the problem of creating resistant varieties of maize.

There is a known method for establishing the stability of maize by extracting ether-alcohol extracts from leaves. However, this method does not allow fast work with a large set of samples, which is especially important for breeders.

The purpose of the invention is to accelerate the selection of maize on the basis of leaf resistance to the stem moth. This is achieved by determining the stability by the optical density of the ethereal filter filtrate. For this, the diagnosis is carried out in the phase of 9 - 10 leaves, and a third leaf is taken in the sample, counting from the cone on the growth of the plant stem, and the higher the optical density, the higher the stability.

Example. The determination is carried out on plants that are in the phase of 9-10 leaves. A third sheet is cut from the three plants of each sample, counting from the growth cone. Leaves should be taken in the morning when the air temperature is not higher than 19 ° C. The selected leaves, each separately, are cut into small pieces and medium samples of 0.5 g each are taken. This sample is poured with 10 ml of ether and snored for 24 hours in the dark at -4 ° C. 1 hour prior to determining the optical density on the photometer, the material is homogenized on ice, then at a low temperature (not higher than + 5 ° C), filtered through a Büchner funnel to remove coarse fractions and kept in a refrigerator before the determination begins.

In order to obtain comparable results for all the samples under study, it is necessary to strictly adhere to the same time intervals in the manufacture of the stretch and determine that the photometer strictly follows the temperature regime. Optical density is determined on filter No. 2. Two cuvettes, 10 mm thick, one of which contains an ether filtrate, and the second a pure ether, are placed on a stage. Before starting work, both photometer drums are installed on the zero line. Rotating the drum, under which the pure ether is, equalizes the color of both filter halves. The corresponding figure on the red scale indicates the amount of optical density. Thereafter, the cuvettes are swapped and the color equalization of both filter halves is performed with the opposite drum. The determinations on each drum are repeated three times. Then, the average value of optical density is calculated using the left and right drums separately (D and 1) 2), then the total average using the formula

Table

, 91 ± 0.04, p 0.001

1/2 (DI + DZ). The final value of D is equal to the average of three samples.

In the table, the results of determination of leaf resistance to the stem of 20 samples of samples are given in the table. The determination was carried out in parallel with sushi, in accordance with our methods. Optical density of 0.50 or more characterizes the actually resistant samples, 0.40 and below are not sufficiently stable. Between them are medium-resistant specimens. The indicated values under the condi- tional conditions of the experiment are corrected by known (software stability samples.

The proposed method facilitates and accelerates the sampling of corn samples resistant to the stem moth. It is fundamentally different from the existing ones in that it does not require dilution of the pest and the production of egg beds to infect plants; it does not require field observations and an assessment of the extent of damage. The work can be carried out in the laboratory in wintertime by growing corn samples in a greenhouse. Stability is determined by one indicator of the optical density of essential extracts from maize leaves, which is fundamentally new in the field of resistance determination. One technician can produce at least 20 definitions per working day.

The subject of invention

Claims (2)

1. A method for diagnosing the resistance of corn leaves to a stem moth, including sampling and processing them in ethyl ether, characterized in that, in order to speed up the selection of corn on the basis of its resistance to corn moth, the diagnosis is carried out by the optical density of the ethereal filtrate The higher the optical density, the higher the stability. 2. The method according to claim 1, characterized in that the diagnosis is carried out in the phase of 9-10 leaves, and a third leaf is taken in the sample, counting from the cone of arasta 1 and the stem of the plants.