SU1681785A1 - Method for diagnosing winter hardiness of plants - Google Patents

Abstract

The invention relates to biology, in particular to the study of the resistance of plants in adverse conditions, and can be used in institutions involved in the introduction and acclimatization of plants, in breeding work, etc. The aim of the invention is to simplify and speed up the method of diagnosing winter-hardiness of plants. Initial samples are taken after the plants pass the autumn hardening period. Before measuring, the samples are kept for 2-3 days at the optimum temperature conditions for the plant and the peroxidase activity is measured. The same samples are then additionally placed at a low positive temperature and the peroxidase activity is re-measured. Calculate the ratio of the second indicator to the first. Plants with a ratio greater than 1 are considered winter-hardy, and at a ratio equal to or less than 1, they are not resistant. The established pattern is valid for all plants: annual and perennial, grassy and woody. 3 tab. SL C

Description

The invention relates to biology, in particular to the study of plant resistance in adverse conditions, and can be used in institutions engaged in the introduction and acclimatization of plants, as well as in breeding work.

The purpose of the invention is to simplify and speed up the method.

Winter hardiness is judged not only by an increase or decrease in peroxidase activity with a decrease in temperature, but by the ratio of peroxidase activity at a low positive temperature, for example, O - (+ 3) ° C (Ahol), to peroxidase activity at optimum for plant growth. region (Aopt), for example at 2023 ° C:, based on the fact that more than winter

resistant plants have a more labile enzyme system that is able to quickly rearrange under stressful situations, in particular with a sharp decrease in temperature. Therefore, as the temperature decreases, more winter-hardy plants increase peroxidase activity to a greater extent; in non-resistant plants, peroxidase activity decreases.

The method is carried out as follows.

With the onset of conditions of autumn hardening of plants, which occurs in sunny weather, daytime temperatures of 8-15 ° C and

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during cool nights, when the temperature can drop to 0 ° C, the tops of the annual shoots (initial sample) are cut, placed in water in a humid chamber under natural light and optimum temperature conditions for the development of this plant for 2-3 days. Peroxidase activity is determined in any living tissue (leaf, bark, kidney, etc.), for example, the third rus. Then the same shoots are placed in a slightly damp paper and plastic bag in the chamber at a temperature of 0- (+3) ° C. After 2 days, the peroxidase activity is determined in the same tissues of the third rus (with opposite leaf position) or the fourth rus (at the next location).

When analyzing the crust, it is cut off in a narrow strip 3-4 cm long at the level of 3-4 ro. In the second determination (after cooling), the same tissue section is cut from the opposite side of the stem. Calculate

relation for each individual AOPT shoot.

In the case of diagnostics of winter hardiness in grassy plants, plants are taken with a clod of earth (after the onset of autumn hardening conditions), planted in vegetative vessels (initial test), maintained under natural light and optimal temperature conditions for 2-3 days. The peroxidase activity in the above ground mass or in the leaves is determined. Then the same vessels are placed for 2 days in a chamber at a temperature of 0 - (+ 3) ° C, and the peroxidase activity is again determined. Calculate the ratio. Aopt

The higher the ratio of peroxidase activity at low positive temperature to activity at optimum temperature, the greater the winter resistance of the plant. If this ratio is equal or less, the plant has poor winter hardiness.

The results of the analysis of peroxidase activity are given in Table. 1-3. The established pattern is valid for all plants: annual and perennial, grassy and woody. The exception is plants in which peroxidase is either inactive or inactive.

The data table. 1 show that, with experimentally improved winter hardiness, the ratio of cold is also greater than 1, sooAopt

Apparently, the proposed method makes it possible in this case to select the most winter-hardy plants.

The proposed method for diagnosing zi: the plant bridging capacity is technically simple, it is fast and able to work with comparable material. Reliability is confirmed by table data. The method makes it possible to pre-select winter-hardy and discard non-resistant plants, to predict the success of the introduction.

Claims (1)

The invention of the Method for the diagnosis of winter hardiness of plants, including the selection of initial Samples and measurement of peroxidase activity in them, characterized in that, in order to simplify and speed up the method, initial samples are taken after the plant passes the autumn hardening period, before measuring, they are kept for 2-3 days at optimal temperature for the plant, peroxidase activity, additionally placing the same samples at a low positive temperature and re-measuring the peroxidase activity, calculating the ratio of the second indicator to the first, while the plants having the ratio of above 1, refer to the winter-hardy, and equal to or less than 1 - to unsustainable. Lilac ordinary Sir vulgaris 1. Poplar white Populus alba 1. Red Oak Quercus rubra 1, Birch Betula sp. Norway maple Acer placanoides L. Norway maple Acer placanoides L Centellate maple Acer negundo L. Acacia bela Robinia pseudoacacia L. Meadowstalk Thunberg Spirae chunbergii Sieb 1-11 from this n-previous.) M m 1.3 1.3 1.2 1.2 1.2 1.2 1.1 M Stend. Pavlon felt without Experimentally high winter hardiness in conditions of the Botsada is frozen to the root of the neck. Grass plant Seeds before sowing were treated with alien extract, escape from adentive bud  a 3 Characteristics of the plant | AHS) / 1 And opt