RU2482665C1 - Method of selection of high-yielding soyabean forms - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture, in particular, to plant breeding. The method includes growing in the field as part of the population of individual plants and their screening - selection in relation to SF/BC (selection feature/background feature) taken into account the character of ecological regression. At that the weight of plant seeds is used as the SF. As a background feature a weight of segment of the lower part of the main sprout of the plant in the phase of complete ripeness is taken. Length of the line of the lower part of the main sprout of the plant is taken equal to 7-10 cm, from the root collar. Obtaining the line of the lower part of the sprout of the plant is carried out in the field. The weight of the plant seeds is determined by fruit collection of the plant in the field, the subsequent thrashing of fruit and weighing the seeds obtained in the laboratory.

EFFECT: method enables to reduce the duration process of accounting of background feature, to ensure the reliability of its change and the ability of accounting in the field.

4 cl, 2 tbl, 2 ex

Description

The invention relates to agriculture, in particular to plant breeding, and in particular to the selection of potentially highly productive forms of soy in the early stages of the breeding process. In determining the prior art used publicly available information provided in all known sources of information.

Known methods for selecting highly productive plant forms (mainly cereals) according to various plant characteristics: according to morphological, organ development power, yield size and quality, ear mass, gradient of sucking force in the root-inflorescence system, grain weight per ear, by the degree of development of the spongy parenchyma, by the length of the period from regrowth to inflorescence, by the length of the spike internodes, by the length of the vagina of the flat leaf, by the maximum number and total diameter of the conducting bundles on the transverse sections of the inter evil stalk, according to the value of the ratio of the mass of grain to the mass of the non-cereal part (USSR copyright certificates No. 296530, 665858, 946471, 1060151, 1191029, 1340674, 1380685, 1380686, 1408559, 1410919, 1454323, 1789141, 1828736, respectively), according to the starch content of starch the root neck of the plant, by the ratio of the thickness of the stem at the root of the neck to the thickness of the stem at the base of the inflorescence, by the ratio of the volume of the ear to its weight - by the specific weight of the ear, by the ratio of the length of the root to the height of the stem, by the length of the petioles of the root leaves and the level of branching of the roots, according to the ratio of the mass of grain to the mass of social ment (RF patent №2013043, 2013044, 2031573, 2057638, 2250604, respectively).

Analysis of such a large number of known methods for selecting highly productive plant forms shows the great relevance of the problem and at the same time the insufficient effectiveness of each method separately.

It is known that when selecting individual plants, the breeder is faced with a very large yield variability, which decreases when offspring are grown on small plots and drops to a minimum when testing the same material on large plots. The main reason for varying the yield of individual plants is the difference in the area actually used by them in the crop. The main characteristic of the variety, its yield, can only be established from the time when the variety begins to occupy a relatively large area. (Yuryev V.Ya. Selected works. Breeding and seed production of field crops. Kiev. 1971, p. 247). Direct selection from a plant in the presence of competition is not very effective. Therefore, effective artificial selection of highly productive forms of plants should provide an increase in yield not from a plant, but from a hectare. A direct assessment of productivity per unit of captured area during the selection of individual plants in field crops is not possible, therefore there is one way - to reject the ratio of the selection trait (SP) to the background trait (AF). A background trait is a trait that is sensitive to the complex of causes of variability that cause shifts in the joint venture, except for one genetic cause, which affects the joint venture, but to which AF is insensitive.

A known method of rejection, when conducting artificial selection of highly productive plant forms, in relation to SP to AF, for example, the weight of seeds to the weight of vegetative organs, taking into account the nature of environmental regression (A.B.Dyakov, V.A. Dragavtsev, A.G. Bechter. " Competitiveness of plants in connection with breeding. A new principle of analysis of productivity variance. - Collective monograph. Theory of selection in plant populations. Publishing house "SCIENCE". Siberian branch. Novosibirsk, 1976, p.251) - prototype.

A disadvantage of the known method for the selection of highly productive plant forms, according to which plants are rejected in relation to SP to FP - the weight of the seeds of the plant to the weight of its vegetative organs, taking into account the nature of environmental regression, is the relatively high complexity of the method of accounting for SP and AF. This is due to the fact that taking into account the mass of the vegetative organs of the plant requires the necessity of pulling it out of the soil or cutting it at the soil level and weighing, which is problematic in the field. In order to carry out the accounting of SP and AF in laboratory conditions, it is necessary to pack each plant separately, transport it to the laboratory, unpack it, separate the seeds, and weigh it. Undoubtedly, with such a scheme for accounting for SP and AF, loss of some of the vegetative organs and seeds is inevitable, which leads to a decrease in the accuracy of selection.

The present invention solves the problem of increasing the accuracy of the selection of highly productive forms of soybeans at the initial stage of selection while simplifying the selection method, as well as expanding the list of used FPs.

The technical result when using the proposed method is a significant reduction in the duration of the AF accounting process, ensuring the reliability of AF measurement due to the use of another feature as a background, and due to the possibility of AF accounting in the field without transporting the entire plant to the laboratory.

The technical result is achieved due to the fact that in the method of selection of highly productive plant forms, which involves the cultivation of individual plants in the field as part of a population and their rejection (selection) in relation to the selection trait to the background (SP / FP) taking into account the nature of environmental regression, while the mass of seeds of a plant is used as a joint venture; according to the invention, the mass of a segment of the lower part of the main shoot of the plant in the full ripening phase is taken as a background feature, while the length of the segment of the lower part the plant shoot is taken equal to 7-10 cm, starting from the root neck, this segment is obtained in the field, and the mass of the plant seeds is determined by cutting off the plant fruits in the field, subsequent threshing and weighing the obtained seeds in the laboratory.

A comparative analysis of the proposed technical solution with the prototype allows us to conclude that the claimed method differs from the prototype in terms of the implementation of actions for the rejection of plants, namely, the background trait used for rejection (in the prototype, the weight (mass) of the vegetative organs of the plant is used as the trait, and in the claimed technical solution - the mass of the segment of the lower part of the main shoot of the plant). Thus, the claimed method meets the criteria of patentability "NOVELTY".

Studying the state of the art in the process of conducting a patent search on all types of information publicly available in the press, we found that the selection method for highly productive plant forms, including the claimed combination of characteristics, for an expert in the field of selection does not explicitly follow from the existing prior art. Our studies have identified the effectiveness of the selection of coenotically productive plants in populations based on the use of the mass of a segment of the lower part of the main shoot of the plant as a background trait. Based on this, it can be concluded that the claimed invention meets the patentability criterion of “INVENTIVE LEVEL”.

The claimed technical solution meets the patentability criterion "INDUSTRIAL APPLICABILITY", as it can be used in agriculture and, in addition, the description of the invention provides means and methods by which it is possible to implement the technical solution in the form as described in an independent claim.

The method is as follows. In the field, in a phase of full ripening, all the beans are collected in a bag from the plant scheduled for selection, then the plant is cut at the level of the root neck, the lower part (cut) is cut from it and put in the same bag. In laboratory conditions, the beans are threshed and the mass of seeds from the plant is determined, the section of the main shoot is weighed - the mass of the segment is determined. Based on the analysis of the entire sample of plants, a graph of ecological regression is constructed in relation to the ratio of the mass of seeds from the plant to the mass of the segment of the lower part of its main shoot. The selection of potentially (coenotically) productive plants is carried out by the largest positive deviation of their values from the line of environmental regression.

Example 1. In the field conditions of 2010 and 2011, in the phase of full ripening, 50 plants of 3 sorts of soybean Vilan, Alb and Lira were selected, differing by the length of the growing season. In laboratory conditions, the mass of vegetative organs of each plant was determined, as well as the mass of segments of the main shoot 15, 10, 7, 5, 3 cm long. The correlation coefficients of the mass of vegetative organs with the mass of segments of different lengths were calculated (Table 1). An analysis of the data showed a high positive correlation between the known AF (the mass of the vegetative organs of the plant) and that proposed as such (the mass of the segment of the lower part of the main shoot of the plant). In this case, the highest positive (close to functional) correlation was revealed with the length of the segments equal to 7 and 10 cm. Therefore, when using the mass of the segment of the lower part of the main shoot of the plant as the phase length, the length of the segment should be taken in the range from 7 to 10 cm.

Table 1 Correlation of the mass of the non-seeded above-ground part of the plant (vegetative organs) with the mass of the segment of the lower part of the main shoot Year Correlation coefficient (g) of the mass of the non-seeded aerial part of the plant with the mass of the stem segment 3 cm 5 cm 7 cm 10 cm 15 cm 2010 0.940 0.940 0.943 0.946 0.946 2011 0,906 0.948 0.962 0.967 0.967

The critical value of γ at a 1% significance level = 0.372

Example 2. In the field in 2010, an artificially formed population was grown, consisting of 7 soybean varieties, equal in length to the growing season. The population included the highly productive Vilana variety (the leading variety in agricultural production) and the low-yielding variety d-09-191. Both varieties had marker traits that allowed them to be identified in the mixture. In the phase of full ripening, 50 plants of the Vilana variety, 50 plants of the variety d-09-191, and 100 plants of the remaining 5 varieties were selected in the population. The selection was carried out by cutting off the beans from each plant, followed by cutting it at the level of the root neck and cutting off the bottom of its main shoot 7 cm long. The beans and the shoot segment were placed in a separate package. In laboratory conditions, the beans were threshed, the seeds obtained were weighed, and segments of the main shoots of plants were also weighed. The plant analysis data was used to construct a graph of ecological regression (the ratio of the mass of seeds from the plant to the mass of the segment of the lower part of its main shoot). As a selection criterion, the largest positive deviation of plant values from the line of ecological regression was used. For comparison with the claimed method, “valuable” plants were conditionally isolated using only the “seed weight per plant” selection criteria.

Analysis of the obtained data showed (Table 2) that the proposed method ensured higher selection efficiency by the value of the deviation of the plant values from the line of ecological regression: a selection trait (mass of plant seeds) on the background (mass of the segment of the lower part of the main shoot of the plant). When used in the experimental population, 31 truly highly productive plants of the Vilana variety and only 9 plants of the low-yielding variety d-09-191 were isolated. Therefore, the proposed method allows with a high probability to divide the population into high-yielding and low-yielding components.

table 2 The number of plants (pcs.) Allocated in the population using different selection methods (selection intensity 25%) n = 200 Way Selection bias The mass of seeds from the plant, g Regression of the mass of seeds from the plant to the mass of the segment of the lower part of the main shoot (1 = 7 cm) Vilana (high yielding) 6 31 d-09-191 (low yielding) 28 9 5 medium yields 16 10

Using only the mass of seeds per plant as selection criteria for highly productive plants showed low efficiency compared to the proposed method for selection accuracy, since significantly fewer truly highly productive plants of the Vilana variety were isolated in the population, while the majority of the selected “highly productive” plants were plants low-yielding varieties d-09-191.

The use of the mass of a segment of the lower part of the main shoot of a plant in the phase of its full ripening instead of the “weight of its vegetative organs” as a background feature (FP) significantly reduces the duration of the process of AF accounting, ensures the reliability and simplicity of measuring AF, since determining the mass of the segment of the lower part shoot of a plant in a field is much simpler and more reliable than determining the mass of the vegetative organs of a plant by cutting it in a field, packing it in a separate container or a sheaf, transporting it to a laboratory, from eliv seeds from plants, and finally, after weighing the remaining part of it and at the same time at all without losing any part of the plant, ie, increases the accuracy of selection of highly productive forms of soy.

So, the claimed combination of features ensures the achievement of the goal (technical result) and the solution of the task.

Claims (4)

1. The method of selection of highly productive forms of soybean, including growing in a field as part of a population of individual plants and their rejection - selection according to the ratio of SP / FP (breeding trait / background trait), taking into account the nature of environmental regression, while the mass of seeds of the plant is used as SP characterized in that the mass of the segment of the lower part of the main shoot of the plant in the phase of full ripening is taken as a background feature. 2. The method according to claim 1, characterized in that the length of the segment of the lower part of the main shoot of the plant is taken equal to 7-10 cm, starting from the root neck. 3. The method according to claim 1, characterized in that obtaining a segment of the lower part of the shoot of the plant is carried out in the field. 4. The method according to claim 1, characterized in that the mass of seeds of a plant is determined by picking the fruit from the plant in the field, then threshing the fruit and weighing the seeds obtained in the laboratory.