RU2575100C1 - Method of selection of winter-hardy plants of winter wheat under climatic conditions of primorsky territory - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention is a method of selection of winter-hardy plants of winter wheat under climatic conditions of the Primorsky Territory, including sowing, growing, taking samples, their assessment on selection and economic characteristics, where the sampling is carried out in the phase of wax ripeness of seeds, and the medium-grown plants of 81-110 cm with reddish colour of stems are selected as winter-hardy, and assessment of characteristics is performed by the content of flavonoids, and the plants with the content of flavonoids of more than 8 mg/g are selected as winter-hardy, and can be used in work on selection of winter wheat and intended to create winter-hardy varieties of this culture.

EFFECT: invention enables to improve the efficiency of selection of winter wheat for winter-hardiness, to accelerate and simplify the process of obtaining the selection material at the early stages of selection works.

2 dwg, 2 tbl

Description

The invention relates to agriculture and can be used in the selection of winter wheat and is intended to create winter-hardy varieties of this crop.

There is a method of producing winter-hardy lines of winter culture, including crossing parental forms of different winter hardiness, sampling in the first generation according to the number of surviving plants after freezing, and in the offspring of the third generation there are lines that are winter hardy exceeding their best parents (See, for example, copyright certificate USSR, No. 1210737, IPC ⁷ A01H 1/04, 02/15/1986).

The disadvantage of this method is that for its implementation requires significant costs of breeding material, physical labor and time for its implementation.

A known method of selection of highly winter-resistant breeding material in the selection of winter barley, including clean sowing of barley populations, alternating with mixed sowing of rye, conduct mass and individual selection of surviving and formed seeds of genotypes (See, for example, patent for the invention of the Russian Federation No. 2080055, IPC ⁶ A01H 1 / 04, May 27, 1997).

The disadvantage of this method is the large amount of work and time to conduct clean and mixed crops, which leads to increased costs.

A known method of selection of winter-hardy plants of winter crops, including sowing, cultivation on raised ridges, sampling and their assessment of winter hardiness (See, for example, USSR author's certificate, No. 1584823, IPC ⁶ A01G 7/00, 08/15/1990) .

A disadvantage of the close known selection method is the use of specially prepared ridges created using boxes made of tin and filled with soil, which, with a large amount of hybrid and other breeding material and cultivated varieties, represents large amounts of necessary preparatory and basic work.

The purpose of the invention is to increase the efficiency of winter wheat breeding for winter hardiness, accelerating and simplifying the process of obtaining breeding material in the early stages of breeding.

This goal is achieved by the fact that in the method of selection of winter-hardy winter wheat plants in the climatic conditions of the Primorsky Territory, including sowing, growing, sampling, their evaluation by breeding and economic characteristics, according to the invention, the sampling is carried out in the phase of wax ripeness of seeds, moreover, as winter-hardy medium-sized plants are selected - 81-110 cm with a reddish color of the stems, and the characteristics are assessed by the content of flavonoids, and plants with a flavon content are selected as winter-hardy ide more than 8 mg / g.

Compared with the prototype, the features of the inventive step of the proposed new method for selecting winter-hardy winter wheat plants are:

1. - "sampling is carried out in the phase of wax ripeness of seeds ...":

- allows at the initial stage of work to identify and isolate samples of winter wheat, grouped by winter hardiness, which simplifies and simultaneously accelerates the further breeding process, when obtaining new varieties,

- allows with a high degree of efficiency to select breeding material with maximum winter hardiness.

2. - "... as a winter-hardy, medium-sized plants are selected - 81-110 cm with a reddish color of the stems ...":

- allows you to select samples of winter wheat with clear signs of winter hardiness, which accelerates the selection process of obtaining highly winter-resistant varieties,

- allows for a characteristic color, depending on the hereditary properties of the organism and the conditions of external factors, to distinguish resistant plants to adverse wintering conditions, which simplifies the selection (visual, by color) and increases the efficiency of winter wheat selection,

- allows you to purposefully select winter wheat plants with a higher content of flavonoids, which increases the number of selected winter-hardy samples.

3. - "... and the assessment of the characteristics is carried out according to the content of flavonoids, and plants with a flavonoid content of more than 8 mg / g are selected as winter-hardy:"

- allows you to select winter wheat plants that can endure the adverse conditions of the winter and early spring periods, which increases the efficiency of the selection process, accelerates the production of new selection material with the best selection and economic characteristics.

The signs indicated in the distinctive part of the description of the achievement of the goal prove that the claimed method of selecting winter-hardy winter wheat plants in the climatic conditions of the Primorsky Territory has novelty. The combination of features shown in the comparison of the properties of the claimed and known solutions, gives reason to conclude that the claimed method has an inventive step.

The proposed method for the selection of winter-hardy winter wheat plants in the climatic conditions of the Primorsky Territory is as follows.

The object of research was fifty-four varieties of winter wheat plants from five regions, seven breeding institutions of Russia (table 1, table 2). After harvesting the predecessor in the fall, the field is prepared for sowing winter wheat. Crops are carried out in an ordinary way with an aisle of 15 cm in the second decade of September in four repetitions. Crop care, pest control and other activities are carried out according to accepted agricultural technology in the region. The first shoots were recorded in the third decade of September. Plant development took place under satisfactory conditions, the hydrothermal coefficient varied between 2-2.5, which corresponds to the conditions for the development of winter wheat in the region.

Assessment of the state of crops in the fall before leaving for winter and spring after the beginning of leaf regrowth is carried out in each repetition in points (Methodology of state variety testing of agricultural crops. M., 1989. Issue 2). The winter hardiness of winter wheat plant varieties in the experiments is shown in Table 1, Table 2 and in the monsoon climate of the Primorsky Territory was noted in the range from 0 points (1.85%) to 5 points (20.37%). The maximum winter hardiness of 5 points have varieties of low-growing plants (51-80 cm) of winter wheat, accounting for 3.7% of the total

list. Varieties of medium-sized plants (81-110 cm) of winter wheat with winter hardiness of 5 points make up 20.37% of the total list.

Upon reaching the development of winter wheat plants, the phase of wax ripeness of the seeds, plants are identified and selected in height - the length of the main stem. In the Primorsky Territory, winter wheat varieties were divided into two groups according to the height of plants: undersized (51-80 cm), table 1, and medium-sized (81-110 cm), table 2 (International Classifier for CMEA of the genus Triticum L. L., 1984) , which amounted to 30 and 24 varieties of winter wheat, respectively. For varieties with winter hardiness of 5 points, the best (preferred) are medium-sized plants.

Next, each group of winter wheat plants is evaluated by the color of the main stem (A. Bondartsev. Scale of colors. M .; L., 1954), which in the climatic conditions of the Primorsky Territory changes from somon (g 2) to reddish (m5 + d3). Varieties with winter hardiness of 5 points are characterized by the “reddish” (m5 + d3) color of the stem of the plant (undersized - 3.7%, medium-sized - 20.37%).

At the same time, all varieties of winter wheat are analyzed for the content of flavonoids in stems and leaves in the phase of full ripeness of seeds. For analysis, dried biomass from 25 plants is used. The determination of flavonoids is carried out by a chromatospectrophotometric method (Devyatnin V.A. Methods of chemical analysis in the production of vitamins. M., 1964). The absorption spectrum of the alcohol extract from winter wheat plants is performed on a Shimalzu UVmini-1240 model spectrophotometer (Japan). The flavonoid content ranged from 5.0 to 12.8 mg / g. A positive correlation was found between the color of the stem (“reddish” color) and the high content of flavonoids, which contributes to the targeted selection of winter-hardy plants in breeding work.

All of the above indicates that according to the information in table 1, low-growing varieties of plants (51-80 cm) of winter wheat have a winter hardiness of 5 points: with the color of the main stem of the somon color (g 2) and a flavonoid content of 7.5 mg / g, while the amount is 3.7% of the total list, and with the main stem color “reddish” (m5 + d3) and flavonoid content 12.1 mg / g, while their amount is 3.70% of the total list of varieties in the experiment. The graph (Fig. 1) reflects the regularity of the influence of flavonoids on the winter hardiness of low-growing varieties (51-80 cm) of winter wheat with the color of the main stem of the color “reddish”, where varieties with flavonoids more than 8 mg / are approaching 100% preservation of planting density from overwintering g.

Based on the data in Table 2, medium-sized varieties of plants (81-110 cm) of winter wheat have a winter hardiness of 5 points: with the color of the main stem of the somon color (g 2) and a flavonoid content of 7.2 mg / g, while their number is 1 , 85%), and with the color of the main stem the color is “reddish” (m5 + d3) and the flavonoid content is 9.4%, while their number is 20.37% of the total list of varieties in the experiment. The graph (Fig. 2) shows the pattern of influence of flavonoids on winter hardiness of medium-sized varieties of plants (81-110 cm) of winter wheat with the color of the main stem of the color “reddish” (m5 + d3), where the winter wheat sowing density from wintering is close to 100% varieties with a flavonoid content of more than 8 mg / g.

Intensive biosynthesis of flavonoids in plants under the influence of stress factors affects the winter hardiness of winter wheat varieties, the higher their content (more than 8 mg / g), the more winter-hardy varieties are detected (5 points). Moreover, they should be included in the group of medium-sized (81-110 cm) plants and have the color of the main stem of the color “reddish” (m5 + d3) in the phase of wax ripeness of seeds.

The use of a new method for selecting winter-hardy winter wheat plants will allow, at the initial stages of the breeding process, to isolate and select resistant genotypes for adverse winter and early spring periods, this will simplify the work, which will save time and money, and accelerate the process of creating a new breeding material adapted for cultivation in extreme environmental conditions.

Claims (1)

The method of selection of winter-hardy winter wheat plants in the climatic conditions of the Primorsky Territory, including sowing, growing, sampling, their evaluation by breeding and economic characteristics, characterized in that the sampling is carried out in the phase of wax ripeness of seeds, and medium-sized plants are selected as winter-hardy - 81 -110 cm with a reddish color of the stems, and the assessment of signs is carried out according to the content of flavonoids, and plants with a flavonoid content of more than 8 mg / g are selected as winter-hardy.

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