SU1431716A1 - Method of raising fertility of autotetraploid rye - Google Patents

Abstract

The invention of agriculture to agriculture, in particular to the breeding of rye and other autotetraploids (radish, oats, cononis, melons, plums, primroses, turnips, tomato, sugarcane, mustard, cotton, rice, buckwheat), which, when crossed with the initial diploids do not give or give a low percentage of triploid seed invasion. The method allows to increase the efficiency of selection and speed up the selection process. In order to achieve the goal, the best in terms of the characteristics of eunloid plants are castrated and pollinated during flowering with a mixture of diploid and haploid pollen in a 1: 1 ratio. The plants that are selected for further work are the best in ozonation and complete grain. In the remaining offspring, small and puny grains are removed, and the rest is divided into two parts, one of which is sown, and the other is stored until next year in reserve. Among the planted ones, offspring are distinguished, the best in ozone content and diversity of grain. For the best with: 1 generation, only the best offspring are used from the reserve. The severity of selection regulate the number of haploid pollen in the mixture (1: 2) and the allowable number of small and puny grains in the offspring. 1 hp f-ly. . i WITH

Description

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The invention relates to agriculture and can be used in the selection of grain crops.

The purpose of the invention is to increase the efficiency of selection and accelerate the selection process.

Example. From 100–200 seeds of breeding according to the 1st cult, select the best ones by size, completeness and specific gravity and germinate them.

Among the seedlings for further work, only those that have 3 or more germinal roots are selected and planted in the field on the spatial isolator in order to prevent accidental ingress of any other rye pollen. Until time of onset of meiosis, retarded growth, severely afflicted diseases, and weak plants are removed. In the remaining plants, one shoot is cut, in which flowers there is meiosis, and the number of chromosomes is counted. Only euploid plants are left for further work.

The plants left for further work 2-3 days before flowering are castrated. At the beginning of flowering, the mixture is composed; diploid and haploid pollen, and when most of the casting flowers open (bloom), they are pollinated with their prepared mixture.

  Pollination with a mixture of diploid and haploid pollen excludes participation in fertilization, and consequently, in the formation of the next generation, genetically and cytologically unbalanced male gametes.

Euploid pollen grains have long pollen tubes and only they can compete with haploid pollen. If haploid pollen overtakes diploid growth, then seed wounding, as a rule, does not occur, since diploids and tetraploids are zygotic incompatible. In this case, the haploid pollen plays the role of a barrier, which is overcome only by the most balanced and therefore intensively growing diploid pollen grains. This is the selection of male gametes.

If the selectable population is "raw autotetraploid, then the amount of diploid and haploid pollen in the mixture is taken in a 1: 1 ratio. If it is necessary to increase the rigidity of selection, diploid and haploid pollen uses s in the mixture in a 1: 2 ratio.

After the ripening of the castrated plants, offspring containing 30% and smaller and shabby grains are removed, and the remaining offspring are removed by sorting into small, light, and feeble grains, which,

0 in their majority, give aneuplodious plants.

In the remaining offspring, the seeds are divided into two parts. One part in the amount of 50-100 grains is sown in the nursery for comparison with the original population and other offspring, and the second is stored until next year.

According to the results of the study of fertility, the best offspring are selected and for the next year's crop, only half of the best offspring are sown, which reinforces the result of previous work and enhances it, since over-pollination during flowering in isolated nurseries occurs only between the best offspring. After reproduction, the material obtained is used in further selection work.

The proposed method makes it possible to significantly improve the breeding populations by fecundity.

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Claims (2)

1. A method for increasing the fertility of autotetraploid rye, including the selection of source material, castration, pollination, 35 selection and reproduction from an established population of fertility-improving plants, characterized in that, in order to improve the efficiency and selection and accelerate the selection process, as source material used are euploid plants. 40 pollination is carried out with a mixture of diploid and haploid pollen, and the selection is carried out according to size and seed pattern. 2. A method according to claim 1, characterized in that diploid and haploid pollen g5 is used in a mixture in a ratio of 1: 1, and if necessary, the selection rigidity is 1: 2.