CS273196B2 - Agent for plants' anthers sterilization - Google Patents

Abstract

The invention concerns an agent for plant anther sterilization. The agent for plant anther sterilization is used in combination with solvent in the fifth an/or sixth stage of organogenesis and according to the invention it contains, as the active substance, derivates of phosphoric acid of general formula I, in which R means H, alkoxyl with 1 to 4 C-atoms, dimethylaminogroup, group of formula II, where X = O, NH; B = H, alkyl with 1 to 4 C-atoms, phenyl; D = H, CH3; A = alkyl with 1 to 4 C-atoms, phenyl, furyl,R<1> means OH, ONH4, OAlk, phenyl,R<2> means alkyl with 1 to 4 C-atoms, Na, NH4, NH3Alk, NH2 (Alk)2,where Alk is alkyl C1 - C4,or their mixtures.The agent according to the invention can be used in florist industry and seed production.

Description

(54)

Means for sterilization of anthers of plants

The invention relates to a composition for the sterilization of anthers of plants. The composition for the sterilization of anthers of plants is used in conjunction with a diluent in the fifth and / or sixth stages of organogenesis and according to the invention contains as active ingredient phosphoric acid derivatives of the general formula I in which R is H, C1-C4alkoxy , a group of formula II, ^I: wherein X = O, NH; Β = H, alkyl of 1 to 4 C-atoms, phenyl; D - H, CH 2; A = alkyl of 1 to 4 C-atoms, phenyl, furyl,

R ¹ is OH, ONH _4, OAlk, phenyl,

R ² represents alkyl having 1 to 4 carbon atoms, Na, NH _4, NH ₃ Alk, NH ₂ (Alk) _2, where Alk is alkyl or mixtures thereof.

The composition according to the invention has applications in breeding and seed production.

A - C

I - Β (II)

1.

The invention relates to biology and agriculture, in particular to a method of sterilizing plant anthers which is to be used in selection and seed production.

Today, the world's challenge is to intensify agriculture, in particular to increase the profitability of cereals, feed, vegetables and technical crops by the widespread use of first generation hybrids. Hybrids, which differ from the parent forms by higher yields (about 25 to 30%) and better product quality, were bred by the crossing route. There is a method for producing novel hybrids that corresponds to a system of cytoplasmic pollen sterility-restored fertility. The basis of this method is continuous (12 to 14 years) and complicated selection work, which includes obtaining sterile analogs, sterility fixators and sterility regenerators. Methods of sterilizing plant anthers with chemical sterilizing agents (gametocides) are particularly promising. The use of gametocides is considerably more economical than the use of a cytoplasmic pollen sterility system, since there is no need to produce such forms as sterile analogs, analogs for fixing sterility in female forms and for regenerating fertility in male forms. The seeds of the first generation hybrids can practically be obtained both during the breeding of the starting forms and also in the control of their technical production.

Currently, about 200 compounds have been found to have gametocidal activity and their chemical structure belongs to different classes of chemical compounds. Gametocides must cause complete pollen sterility in treated plants while maintaining the ability of the egg cells to live and ensure a sufficiently high ability (at least 70% of control) to produce the testicle under free pollination. Their phytotoxicity and toxicity to warm-blooded animals must be minimal.

Methods of sterilizing cereal anthers are known (L. Dzh. Nikell, Growth Regulators. Primenenie-v peasant chozjajstva, Moscow, ed. Kolos, 1984, pp. 28-31, Stí, A, 906457), which consist in treating plants with sterilizing agents such as 2-chloroethylphosphonic acid (Etrel), maleic anhydride, di- (polyfluoroalkyl) phosphoric acid and its salts and others. Treatment of plants with sterilizing agents is carried out in V or VI. stage of organogenesis (according to F.M. Kupermann).

In the 5th stage of organogenesis, the processes of flower formation and differentiation begin. Towards the end of this stage, neoplasms, areshesporium tissues are formed. During this stage germs of sticks, fists and petals are formed; In Stage V differentiation of the rod embryo in the rod and pistil occurs. VI. the stage is characterized by the process of forming a flower (micro`a and macrosporogenoza). At this stage, separate mononuclear pollen grains are formed (F. M. Kupermann, Morfofiziologija rastenij, Moscow, publ., "Vyshsaja School, 1973, pp. 30-36). ·

Further, a method of sterilizing grass anthers (GB. A. 1 567 153) is known, which comprises treating the grasses with a sterilizing agent for a period between the appearance of the second stem of the stem and the ear. As the sterilizing agent, heterocyclic compounds are used, the main representatives of which are 2-carboxy-3,4-methpyrrolidine or 2-methoxycarbonyl-3,4-methanopyrrolidine. The compounds are used in admixture with diluents and surfactants.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a new sterilizing agent which enables the sterilization of anthers of a wide variety of cultures with a high sterilization degree while maintaining a high seed capacity for free pollination.

The problem is solved by treating anthers of plants in the fifth and / or sixth stages of organogenesis with a sterilizing agent containing a diluent which, according to the invention, contains phosphoric acid derivatives of the general formula

OB.

in which

R is H, alkoxy having 1 to 4 C-amino, dimethylamine,

D

AND

A - C - wherein X = O, NH; Β = H, alkyl of 1 to 4 C-atoms, phenyl;

- B D = H, CH 8; A = C 1 -C 4 alkyl, phenyl, furyl,

R ⁷ denotes OH, ONH 4, OAlk, phenyl,

R ² represents alkyl having 1 to 4 carbon atoms, Na, NH ^, NHgAlk NH ₂ (Alk ₂ wherein Alk is alkyl C ^ -C ^, or mixtures thereof.

The sterilizing agent may be used in conjunction with any known and suitable diluent. Ophthalmic is to use it as a 0.1 - 2% emulsion in water. The plants treated with the sterilizing agent are preferably grasses or sunflowers.

The composition according to the invention makes it possible to achieve sterility of male plants (98 to 100%) and to maintain a high seed rate (over 70%). In order to achieve a high sterilization degree of anthers under unfavorable climatic conditions, treatment of the plants with a sterilizing agent in the fifth and / or sixth stage of organogenesis (according to Kupermann) is repeated.

The composition of the invention is used as follows.

Plants, such as winter wheat and spring wheat, diploid and tetraploid rye, triticale, millet, sunflower, etc., are treated with a sterilizing agent in which they serve as the active ingredient.

in which

R is H, (C 1 -C 4) alkoxy, dimethylamine,

D

AND

A - C - wherein X = O, NH; Β = H, C 1 -C 4 alkyl, phenyl;

_B = H, CHg; A = C 1 -C 4 alkyl, phenyl, furyl,

R ⁷ denotes OH, ONH ₄ , OAlk, phenyl,

R is alkyl having 1 to 4 carbon atoms, Na, NH ^, NHgAlk NH ₂ (Alk) _2, where Alk is alkyl _C-C4, or mixtures thereof.

The phosphoric acid derivatives can be used in conjunction with any suitable diluent. Suitably, water is used as the diluent. Preferably, a 0.1 - 2% aqueous emulsion or solution of said compounds is used.

Suitable surfactants may be added to the ready-to-use solutions as desired. When applied to plants, any known adjuvants such as wetting agents, dispersing agents and adhesives are usually added to the ready-to-use solutions.

The sterilizing agent is applied to the plants by a variety of treatments such as liquid spraying and air spraying (aerosols).

Treatment of plants with a sterilizing agent is performed at the fifth and / or sixth stage of organogenesis (according to Kupermann). The dosage of the sterilizing agent depends on the type of compound, the culture being treated, the stage of treatment and natural climatic factors.

In order to ensure a high sterilization effect under adverse climatic conditions, it is advisable to repeat the treatment of the plants in VI. stage of organogenesis. The total dose of the sterilizing agent is 0.6 to 20 kg / ha.

All of the phosphoric acid derivatives of the invention for use as a sterilizing agent have been tested for toxicity in animal experiments. The results of the tests showed that the compounds are slightly or moderately toxic.

Thus, for example, the compounds of the invention mononium phosphite, monomethylammonium phosphite, diammonium phosphite, monoammonium phosphite, methylammonium monobutyl phosphite, dimethylammonium monomethyl phosphite, triethyl phosphite, dimethyl phosphite, diethyl phosphite, diisopropyl phosphite show LD ₅₀ = 1000 - 4000 mg / kg. .

Phosphoric acid derivatives are prepared by known methods, for example by reacting the appropriate carbonyl compound with an amine and a hydrophosphoryl compound, or by reacting alcohols with phosphoric acid, or by reacting the corresponding base with acidic agents.

The gametocidal activity of the sterilizing agents according to the invention was determined by field experiments in different soil-climatic zones with partial areas of 10 m ² , with two, three to four replicates. Each sterilizer has been tested for at least 5 years.

The development of organogenesis stages is monitored cytologically. Treatment of plants with a sterilizing agent is carried out at the beginning of the fifth stage of Kupermann's organogenesis.

After the ears grow, isolate the largest ears and the others in parchment bags. For wheat and triticale, individual isolates are used. In rye, the ears of 5 to 7 different side-by-side plants are enclosed in one common isolate. For millet, each pan is isolated separately. Percent sterility (X) to wheat, rye, triticale, and sorghum are determined using the formula number of seeds fertilized one isolate _χ _ j _1Q0 treated plants number of seeds fertilized one isolate untreated control

The number of grains in the uninsulated spikes of control plants in free pollination is taken as comparative, i.e.. 100% deployment.

To obtain reliable data, 20 to 25 wheat and triticale isolates are used in each experiment, 10 to 15 rye and millet isolates are used in each experiment.

To control chemical sterilization of sunflower pollen, 45 treated plants were used for each compound, 15 plants were isolated for self-pollination, 15 plants were pollinated with a mixture of pollen collected from 20-25 isolated dressings, and 15 plants were left free to pollinate to control the use of achenes in pollination of parental plants.

The sterility of the pollen of sunflower plants is assessed by pollen fertility and germination, by the morphological peculiarities of male germ cells and by the ability of the pollination to be applied by pollination in treated isolated plants pollinated by untreated pollen. The viability of the egg cell is determined after seed formation in the treated plants by free pollination.

It is desirable to treat plants in clear, windless weather.

CS 273.196 B2

All compounds enter the plant tissue within 4 hours. In the event of rainfall during these 4 hours, the plants must be re-treated in the VI-stage of organogenesis. For a better understanding of the invention, the following embodiment variants of the process according to the invention are provided.

Examples 1 to 12

Mironovskaya 808 winter wheat plants are treated with a portable sprayer by spraying a 2% aqueous emulsion of the following sterilizing agents at stage V of organogenesis (according to Kupermann):

diethyl N-methyl-alpha-aminobenzylphosphonate, diethyl N-phenyl-alpha-aminofurylmethylphosphonate, dimethyl N-ethyl-alpha-aminobenzylphosphonate, dimethyl N-methyl-2-aminofurylmethylphosphonate, diethyl N-methyl-2-aminofurylmethylphosphonate, diethyl-alpha-amino-alpha-methylpropylphosphonate, diethyl-alpha-oxyfurylmethylphosphonate, diethyl-N, N-dimethylamidophosphate, diethyl-N-methyl-alpha-aminofurylmethylphosphonate, diethyl-alpha-aminoethylphosphonate, diethyl-N-ethyl-alphaaminofurylmethylisphosphonate -N-methyl-alpha-aminofurylmethylphosphonate.

0.1% w / w is used as emulsifier. 12 to 14 carbon atoms of calcium alkylbenzene sulfonate. 0.01% wt. dimethylsulfoxide. The consumption of the product is 20 kg per ha. As a control, plants treated with a diluent without a sterilizing agent. The test results are shown in Table 1. Similar results were obtained in the treatment of plants in VI. stage of organogenesis.

TABLE 1

Example # Number of ear grains in isolate · · Percent sterility Number of ear grains in free pollination Percentage of deployment at free pollination: 1 2 3 · ' 4 · 5 Control 38.3 0.0 41.0 100.0 1 0.0 100.0 33.8 82.4 2 0.1 99.7 36.9 90.0 3 0.3 99.2 39.7 96.8 4 1.5 96.1 40.2 98.0 5 0.0 100.0. 35.4 86.3 6 0.6 98.4 37.8 92.2 7 2.6 93.2 34.9 85.1 8 0.2 99.5 36.6 89.3 9 0.0  100.0 37.1 90.5 10 0.0 100.0 35.4 86.3 11 1.6 95.6 28.0 68.3 12 0.8 97.9 40.7 99.3

Examples 13 to 23

Winter wheat plants of the Priboj species are treated in the V-stage of organogenesis (according to Kupermann) by spraying a 2% aqueous emulsion of the following sterilizing agents:

diethyl N-methyl-alpha-aminobenzylphosphonate, diethyl N-phenyl-alpha-aminofurylmethylphosphonate, dimethyl N-ethyl-alpha-aminobenzylphosphonate, dimethyl N-methyl-2-aminofurylmethylphosphonate, diethyl N-methyl-2-aminofurylmethylphosphonate, diethyl-alpha-amino-alpha-methylpropylphosphonate, diethyl-N, N-dimethylamidophosphate, diethyl-N-methyl-alpha-aminofurylmethylphosphonate, diethyl-N-ethyl-alpha-amino-aminofurylmethylphosphonate, diisopropyl-N-methyl-alpha-aminofurylmethylphosphonate.

0.1% wt. C 12 -C 14 calcium alkylbenzene sulfonate. As an adjuvant, 0.01 wt. tetrahydrofuran. The consumption of the product is 12 kg / ha. '

Plants treated analogously to Example 1 serve as controls. stage of organogenesis.

TABLE 2

Example # Number of ear grains in isolate Percent sterility Number of ear grains in free pollination Percentage of free pollination Control 32.1 0.0 36.8 100.0 13 0.1 99.7 33.1 89.9 14 0.3 99.1 35.0 95.1 15 Dec 0.6 .98,1 32.8 89.1 16 2.8 91,3 ' 32.6 88.6 17 · 0.0 100.0 32.1 87.2 18 0.0 100.0 34.5 93.8 19 Dec 0.0 100.0 35.7 97.0 20 May 3.8 88.2 36.0 .97.8 21 0.0 100.0 34.6 94.0 22nd 0.2 99.4 35.9 97.6 23 0.1 99.7 36.3 98.6

Examples 24 to 29

Polesskaja-70 winter wheat plants are treated in a fifth stage of organogenesis (Kupermann's) by spraying a 2% aqueous emulsion of the following. sterilizing agents: diethyl-alpha-oxyfurylmethyl phosphonate, diethyl-N, N-dimethylamidophosphate, diethyl-N-methyl-alpha-aminofurylmethylphosphonate, diethyl-alpha-aminoethylphosphonate, diethyl-N-ethyl-alpha-aminofurylmethylphosphonate, diisopropyl-N-methyl- alpha-aminofurylraethylphosphonate. 0.1% wt. calcium alkylbenzene sulfonate having from 12 to 14 carbon atoms. As an adjuvant, 0.01 wt. dodecyl sulfate. The consumption of the product is 16 kg / ha. Plants treated analogously to Example 1 serve as a control. stage of organogenesis.

TABLE 3

Example # Number of ear grains in isolate Percent sterility Number of ear grains in free pollination Percentage of deployment in free pollination Control 31.8 0.0 34.9 100.0 24 3.9 83.7 30.6 87.7 25 .0,0 100.0 33.9 97.1 26 0.0 100.0 31.8 91.1 27 Mar: 0.0 100.0 32.0 91.7 28 0.7 97.8 30.4 87.1 29 0.3 99.1 33.7 96.6

Examples 30 to 41

Spring wheat plants Moskovskaya 35 are treated in VI. stage of organogenesis (according to Kupermann) with an aqueous 2% emulsion of the following sterilizing agents: diethyl N-methyl-alpha-aminobenzylphosphonate, diethyl N-phenyl-alpha-aminofurylmethylphosphonate, dimethyl N-ethyl-alpha-aminobenzylphosphonate, diethyl N- methyl-alpha-aminofurylmethylphosphonate, diethyl-N-methyl-alpha-aminofurylmethylphosphonate, diethyl-alpha-amino-alpha-methylpropylphosphonate, dimethylphosphite, diamonium phosphite, diethyl-N-ethyl-alpha-aminofurylmethylphosphonate, methylammoniummonobutylphosphite, diethyl-N, osphate, diisopropyl-N-methyl-alpha-aminofurylmethylphosphonate.

0.1 ΐ wt. of C 12 -C 14 calcium alkyl benzene sulfonate and 0.01 Ϊ wt. dimethylformamide. The consumption of the product is 10 kg / ha. Plants treated with diluent ₍ without sterilizing agent) serve as a control.

The test results are shown in Table 4. Similar results were obtained in the treatment of plants in · V. stage of organogenesis.

TABLE 4

Example # Number of ear grains in isolate Percent sterility Number of ear grains in free pollination Percentage of free pollination Control 27.5 0.0 33.2 ioo; o 30 0.0 100.0 29.8 89,8 ' 31 0.1 99.4 30.1 90.7 ³² 0.6 97.8 30.6 92.2 33 1.3 95.2 28.8 86.7 ³⁴ 0.1 99.4 29.1 87.6 35 0.1 99.4 31.5 94.9 36 0.0 100.0 28.4 85.5 37 0.4 98.5. 32.3 97.3 38 0.0 100.0 30.7 92.5 39 6.0 78.0 32.0 96.4 40 1,2 95.6 28.9 87.0 41 0.1 99.4 ’ 30.6 92.2

Examples 42 to 47

The spring wheat plants of Botanicheskaya 4 are treated in VI. stage of organogenesis (according to Kupermann) with 2% aqueous emulsion of the following sterilizing agents: diethyl-alpha-oxyfurylmethylphosphonate, diethyl-N, N-dimethylamidophosphate, diethyl-N-methyl-alpha-aminofurylmethyl phosphonate, diethylphosphite, diethyl-N-ethyl-alpha-aminofurylmethylphosphonate , diisopropyl-N-methyl-alpha-aminofurylmethylphosphonate.

0.1% wt. % of C 12 -C 14 calcium alkylbenzene sulfonate and adjuvant, 0.01 wt. dimethylsulfoxide.

The consumption of the formulation is 8 kg / h '. The plants treated as in Examples 30-41 serve as a control.

The results of the tests are shown in Table 5. Similar results were obtained in the treatment of plants in stage V of organogenesis.

TABLE 5

Example # Number of ear grains in isolate Percent sterility Number of ear grains in free pollination Percentage of grain usage in free pollination Control 28.2 0.0 30.1 100.0 42 0.0 100.0 . 27.8 92.4 43 0.1 99.7 28.1 93.4 44 0.0 100.0 28.8 95.7 45 0.3 98.9 26.5 88.0 46 0.0 100.0 23.6 78.1 47 0.1 99.7 t 28.4 94.4

Examples 48-54

Plants of the triticale species PRAG-109 are treated in VI. stage of organogenesis (according to Kupermann) with a 2% aqueous emulsion of the following sterilizing agents: diethyl N-phenyl-alpha-aminofurylmethylphosphonate, dimethyl N-ethyl-alpha-aminobenzylphosphonate, diethyl N-methyl-2-aminofurylmethylphosphonate, diethyl N, N- dimethylamidophosphate, diethyl-alpha-aminoethylphosphonate, diethyl-N-ethyl-alpha-aminofurylmethylphosphonate, diisopropyl-N-methyl-alpha-aminofuryl-methylphosphonate.

0.1% wt. C 12 -C 14 calcium alkylbenzene sulfonate.

As adjuvant, 0.01 wt. tetrahydrofuran. The consumption of the product is 20 kg / ha.

As a control, plants treated analogously to Example 1 are used. The test results are shown in Table 6.

Similar results were obtained in the treatment of plants in stage V of organogenesis.

TABLE 6

Example # Number of ear grains in isolate Percent sterility Number of ear grains in free pollination Percentage of free pollination Control 62.2 0.0 69.0 100.0 48 0.0 100.0 58.8 85.2 49 0.1 99.7 63.1 91.4 . 50 o, o ' 100.0 61.6 89.3 51 0.8 98.7 66.2 95.9 52 2.6 96.8 61.1 88.6 53 0.6 99.0 60.8 88.1 54 1.1 98.2 64.5 93.5

Examples 55-57

Amphidiploid-206 triticale plants are treated analogously to Example 54 in V and VI. stage of organogenesis with a 2% aqueous emulsion of the following sterilizing agents: diethyl-alpha-aminoethylphosphonate, diethyl-N-ethyl-alpha-aminofurylmethylphosphonate, diisopropyl-methyl-alpha-aminofurylmethylphosphonate.

The consumption of the product is 12 kg / ha. The test results are shown in Table 7.

TABLE 7

Example # Number of ear grains in isolate Percent sterility Number of ear grains in free pollination Percentage of grain usage in free pollination Control 31.7 0.0 36.6 100.0 55 0.0 100.0 30.5. 83.3 56 0.0 100.0 33.8 92.3 57 0.0 100.0 32.9 89.9

Examples 58 to 69

Belta tetraploid rye plants are treated analogously to the treatment described in Example 1 with a 2% emulsion of the following sterilizing agents: diethyl N-methyl-alpha-aminobenzylphosphonate, diethyl N-phenyl-alpha-aminofurylmethylphosphonate, dimethyl N-ethyl-alpha- aminobenzylphosphonate, dimethyl N-methyl-alpha-aminofurylmethylphosphonate, diethyl N-methyl-alpha-aminofurylmethylphosphonate, diethyl alpha-amino-alpha-methylpropylphosphonate, diisopropylphosphite, diethyl N, N-dimethylamidophosphate, diethyl N-methyl-alpha- aminofurylmethylphospho-. naphtha, diethyl-alpha-aminoethylphosphonate, diethyl-N-ethyl-alpha-aminofurylmethylphosphonate, diisopropyl-N-methyl-alpha-aminofurylmethylphosphonate. As a control, plants treated analogously to Example 1 are used.

The consumption of the product is 12 kg / ha. The test results are shown in Table 8.

TABLE 8

Example no. Number of ear grains in isolate Percent sterility Number of ear grains in free pollination Percentage of grain application in free pollination Control 43.3 0.0 47.1 100.0 58 1.0 97.7 40.8 86.6 59 0.1 99.8 42.1 89.4 60 0.0 100.0 36.4 77.3 61 0.1 99.8 43.5 92.4 62 0.2 99.5 44.3 94.0 ‘63 0.0 100.0 45.9 97.4 64 3.1 92.8 42.8 90.9 65 0.8 98.2 45.8 97.2 66 2.5 94.2 32.5 69.9 67 0.0 • 100.0 44.2 93.8 68 0.7 98.4 37.6 79.8 69 0.0 100.0 42.5 90.2

Examples 70 to 80

Plants of diploid rye of Chulpan species are treated in VI. stage of organogenesis with a 2% aqueous emulsion of the following sterilizing agents: diethyl N-methyl-alpha-aminobenzylphosphonate, diethyl N-phenyl-alpha-aminofurylmethylphosphonate, dimethyl N-ethyl-alpha-aminobenzylphosphonate, dimethyl N-methyl-alpha-aminofurylmethylphosphonate, diethyl-N-methyl-alpha-aminofurylmethylphosphonate, diethyl-alpha-amino-alpha-methylpropylphosphonate, diethyl-N, N-dimethylamidophosphate, diethyl-N-methyl-alpha-aminofurrylmethylphosphonate, diethyl-alpha-aminoethylphosphonate, diethyl-N-ethyl- alpha-aminofurylmethylphosphonate, diisopropyl-N-methyl-alpha-aminofurylmethylphosphonate.

0.1% w / w is used as emulsifier. of C 12 -C 14 calcium alkyl benzene sulfonate, adjuvanted with 0.01 wt. dimethylformamide. The consumption of the product is 20 kg / ha. As a control, plants treated as described in Example 1 are used.

The test results are shown in Table 9. Similar results are obtained in the treatment of plants in the V-stage of organogenesis.

TABLE 9

Example # Number of ear grains in isolate Percent sterility Number of ear grains in free pollination Percentage of grain usage in free pollination Control 57.1 0.0 64.7 100.0 70 0.3 99.5 61.8 95.5 71 0.1 99.8 60.6 93.7 72 0.0 100.0 54.8 84,7 ' 73 0.6 99.0 58.1 89.8 74 0.4 99.3 62.6 96.8 75 0.0 100.0 57.4 88.7 76 0.7 98.8 60.7 93.8 77 0.0 100.0 59.4 91.8 78 0.9 98.4 62.3 96.3 79 • 0.7 98.8 63.8 98.6 80 0.0 100.0 61.6 95.2

Examples 81 to 92

Plants of diploid rye of Kharkovskaya-55 species are treated in VI. stage of organogenesis with a 2% aqueous emulsion of the following sterilizing agents: diethyl N-methyl-alpha-aminobenzylphosphonium, diethyl 1-H-phenyl-alpha-aminofurylmethylphosphonate, dimethyl-N-ethyl-alpha-aminofurylmethylphosphonate, diethyl N-methyl-alpha-aminofurylmethylphosphonate, diethyl-alpha-amino-alpha-methylpropylphosphonate, dimethylphosphite, diethyl-N, N-dimethylamidophosphate, diethyl-N-methyl-alpha-aminofurylmethylphosphonate, diethyl-alpha-aminoethylphosphonate, diethyl N-ethyl-alpha-aminofurylmethylphosphonate or diisopropyl -N-methyl-alpha-aminofurylmethylphosphonate.

0.1% wt. of C 12 -C 14 calcium alkylbenzene sulfonate and adjuvant added 0.01 wt. dodecyl sulfate. The consumption of the product is 12 kg / ha.

As a control, plants treated analogously to Example 1 were used.

TABLE 10

Example # Number of ear grains in isolate Percent sterility Number of ear grains in free pollination Percentage of grain usage in free pollination Control 38.4 0.0 46.8 100.0 81 0.0 100.0 40.6 86.8 82 0.2 99.5 42.5 90.8 83 0.0 100.0 39.8 85.0 84 0.7 98.2 44.1 94.2

.10

Table 10 - continued

Example no. Number of ear grains in isolate Percent sterility Number of ear grains in free pollination Percentage of grain usage in free pollination 85 0.0 100.0 . 32.6 69.6 86 0.1 99.7 43.7 93.4 87 0.0 100.0 40.4 86.3 88 0.6 98.4 44.3 94.7 89 0.7 98.2 40.8 87.2 90  0.0 100.0 44.9 95.9 91 0.2 99.5 40.2 85.9 92 0.0 100.0 39.5 84.4

Examples 93 to 102 '

Millet plants of Mironovskaya 94 are treated as in Example 14 with a 1% aqueous emulsion of the following sterilizing agents: diethyl N-phenyl-alpha-aminofurylmethylphosphonate, dimethyl N-ethyl-alpha-aminobenzylphosphonate, dimethyl N-methyl-alpha-aminofurylmethylphosphonate, diethyl- N-methyl-alpha-aminofurylmethylphosphonate, diethyl-alpha-amino-alpha-methylpropylphosphonate, diethyl-N, N-dimethylamidophosphate, diethyl-N-methyl-alpha-aminofurylmethylphosphonate, diethyl-alpha-aminoethylphosphonate, diethyl-N-ethyl-alpha- aminofurylmethylphosphonate or diisopropyl-N-methyl-alpha-aminofurylmethylphosphonate. The consumption of the product is 6 kg / ha. The test results are shown in Table 11.

TABLE 11

. Example # Number of lath grains in the isolate Percent sterility Number of grains in free pollination Percentage of free pollination Control 320.5. 0.0 379.5 100.0 93 0.0 100.0 315.6 83.2 94 0.0 100.0 294.8 77.7 95 0.0 100.0 326.4 86.0 96 0.0 . . 100.0 301.5 79.4 97 0.0 100.0 359.2 94,6 · 98 0.0 100.0 300.7 79.2 99 0.0 100.0 348.6 91.8 100 ALIGN! 0.0 100.0 284.3 74.9 101 0.0 100.0 352.5 92.9 102 0.0 100.0 · 362.9 95.6

Examples 103 to 111

Kormovoe-X millet plants K-9693 are treated analogously to Example 1 with a 1% aqueous emulsion of the following sterilizing agents: diethyl-N-phenyl-alpha-aminofurylmethylphosphonate, diethylphosphite, diisopropylphosphite, dimethylammonium monomethylphosphite, diethyl alpha-oxyfurylmethylphosphonate, dimethylamidophosphate, diethyl-alpha-aminoethylphosphonate, diethyl N-ethyl-2-aminofurylmethylphosphonate, diisopropyl-N-methyl-alpha-aminofurylmethylphosphonate or diisopropyl-N-methyl-alpha-aminofurylmethylphosphonate. The consumption of the product is 6 kg / ha. The test results are shown in Table 12.

TABLE 12

Example # Number of lath grains in isolate Percent sterility Number of grains in free pollination Percentage of free pollination Control 125.0 0.0 146.7 100.0 103 0.0 100.0 125.6 85.6 104 0.0 100.0 138.9 94.7 105 0.0 100.0 120.2 81.9 106 0.0 100.0 118.6 80.8 107 0.0 100.0 134.7 91.8 108 0.0 100.0 112.4 76.6 109 0.0 100.0 131.8 89.8 110 0.0 100.0 • 127.7 87.0 111 0.0 100.0 135.4 92.3

Examples 112 to 118 ·

Peredovik sunflower plants, VNIIMK 8931 and Line BK-119 are treated analogously to Example 1 with an aqueous 1% emulsion of the following sterilizing agents: diethyl-alpha-aminoethylphosphonate, diethyl-alpha-amino-furylmethylphosphonate, diisopropyl-N-methyl-alpha- aminofurylmethylphosphonate, diethyl-alpha-aminoethylphosphonate, diethyl-N, N-dimethylamidophosphate, diethyl-alpha-aminoethylphosphonate, and optionally diethyl-N-phenyl-alpha-aminofurylmethylphosphonate. The consumption of the product is 6 kg / ha, 'The test results are given in Table 13.

TABLE 13

Example # 'Percentage of sterility * Deployment of achenes. in free pollination Mass 1000 nažek in g Oil content achene in% Growth energy in% Sunflower kind Peredovik Control 0.2 85,0 ‘ • 84.0 54.7 100.0 112 100.0 84.2 84.3 52.2 100.0 113 100.0 83.3 100.0 54.9 100.0 .114 100.0 81.8 83.4 52.8 100.0 • Sunflower kind VNIIMK 8931 - Control 0.5 . 85.7 83.0 54.7 100.0 115 100,0 ' '84, 2 83.7 55.1 100.0 116 100.0 83.6 84.2 54.0 • 100.0 Sunflower Line BK-119 Control 2,0 85,0 ·· 60.0 51.0 100.0 117 100.0 82.3 58.6 52.8 100.0 118 100.0 .83,8 61.4 51.6 100.0

Examples 119 to 122

Mironovskaya 808 winter wheat plants are treated with a 2% aqueous emulsion of the following sterilization compositions (taken at a ratio of 1: 1) in the V stage of organogenesis: diisopropyl-N-methyl-alpha-amino-erylmethylphosphonate and dimethylphosphite, diethyl-N-methyl- alpha-aminofurylmethylphosphonate and diethyl-alpha-aminoethylphosphonate, diethyl N, N-dimethylamidophosphate and methylammonium monobutylphosphite or diethyl N-phenyl-alpha-aminofurylmethylphosphonate and diethylphosphite.

0.1% wt. C 12 -C 14 calcium alkylbenzene sulfonate. 0.01% by weight of adjuvant is added. dodecyl sulfate. The consumption of the product is 12 kg / ha. Plants treated analogously to Example 1 serve as controls. The results of the tests are shown in Table 14. Similar results were obtained with the plants treated in VI. stage of organogenesis.

TABLE 14

Example no. Number of ear grains in isolate Percent sterility Number of ear grains in free pollination Percentage of deployment in free pollination Control 38.3 0.0 41.0 100.0 119 0.0 100.0 39.2 95.6 '120 0.0 100.0 38.6 94.1 121 0.0 100.0 40.8 99.5 122 0.0 100.0 39.7 96.8

Examples 123 to 124

Mironovskaya 35 spring wheat plants are treated in the V stage of organogenesis with 1% emulsion of the following sterilization mixtures (1: 1 ratio): diethyl N-ethyl-alpha-aminofurylmethylphosphonate and diethyl N-methyl-alpha-aminofurylmethylphosphonate, dimethyl -N-methyl-alpha-aminofurylmethylphosphonate and dimethylphosphite. 0.1% wt. C 12 -C 14 calcium alkylbenzene sulfonate. 0.01% by weight of adjuvant is added. dimethylsulfoxide. The consumption of the product is 6 kg / ha. Plants treated analogously to Example 1 serve as controls. The test results are shown in Table 15. Similar results are obtained when treating plants in VI. stage of organogenesis.

TABLE 15

Example # Number of ear grains in isolate Percent- sterility Number of ear grains in free pollination Percentage of grain usage in free pollination Control 27.5 0.0. 33.2 100.0 123 0.0 100.0 30.6 92.2 124 0.0 100.0  31.8 95.8

Examples 125 to 128

PRAG-109 triticale plants are treated in the V stage of organogenesis with an aqueous emulsion of the following sterilization mixtures (taken at a ratio of 1: 1): diethyl N-phenyl-alpha-aminofurylmethylphosphonate and diethylphosphite, diethyl N-methyl-alpha-aminobenzenephosphonate and diethyl-alpha-aminoethylphosphonate, diethyl-N, N-dimethylamidophosphate and dimethylphosphite, diammonium phosphite and diethyl-N-methyl-alpha-aminofurylmethylphosphonate. 0.1% wt. % C 12 -C 14 calcium alkyl benzene sulfonate and as adjuvant 0.01 wt. tetrahydrofuran. The consumption of the product is 12 kg / ha. Plants treated analogously to Example 1 serve as a control. stage of organogenesis.

TABLE 16

Example # Number of ear grains in isolate Percent sterility Number of ear grains in free pollination Percentage of deployment free pollination at Control 62.2 0.0 69.0 100.0 125 0.0 100.0 63.4 92.0 126 0.0 100.0 60.0 87.1 127 0.0. 100.0 59.8 86.7 128 0.0 100.0 62.2 90.1 /

Claims (2)

SUBJECT OF THE INVENTION A composition for the sterilization of anthers of plants comprising a diluent, characterized in that it contains, as an active substance, phosphoric acid derivatives of the general formula: II P OR in which R is H, (C 1 -C 4) alkoxy, dimethylamino, D AND A - C - wherein X = O, NH; Β = H, alkyl of 1 to 4 C-atoX-Bγ, phenyl; D = H, CH 2, A = alkyl of 1 to 5 4 C-atoms, phenyl, furyl, R ¹ denotes OH, ONHj, OAlk, phenyl, R is alkyl having 1 to 4 carbon atoms, Na, NH-NH-alk, -NH ₂ (Alk) _2, where Alk is alkyl of C ^ to C ^, or mixtures thereof. 2. The composition of claim 1, wherein the diluent is water, wherein the concentration of the active ingredient is 0.1 to 2 percent and is present in the form of an emulsion.