SU1743410A1 - Method for presowing treatment of seeds - Google Patents

Abstract

The invention relates to agriculture, in particular to highly efficient pre-sowing techniques. processing of seeds of various fodder and other crops. The aim of the invention is to increase seed germination and improve plant growth during the initial growing season. The goal is achieved by covering the seeds with a successive adhesive, which is used as a vegetable oil in an amount of 1.0-2.5 kg per tonne of seeds, and then is pollinated with a mixture of a filler, which is used as a phosphate-containing hydrolyzed potassium hydrolyzate. raw materials, disinfectant and biologically active additives in the following ratio, wt.%: phosphate hydrolyzate of keratin-containing raw materials 50.0- 66.519) disinfectant 20.0-33.259} biologically active additives 0.222-30.0, The proposed method provides an increase germination rate is 1.3– t times and productivity 1.2–1, b times. And table. .. i (Л С

Description

This invention relates to agriculture; medicine, in particular, to highly efficient methods of pre-sowing treatment of seeds of various forage and other crops, primarily sensitive to waterlogging and mold, as well as those intended for long-distance traffic from elite seed-growing stations and households.

The purpose of the invention is to increase seed germination and improve plant growth during the initial growing season and increase the productivity of crops.

Example 1. Seeds of the fire of awnless Dneprovsky, Pyrye gray Rostovsky 31, Regneria Poltavka,

Evis and rapeseed Kuban rape were dry treated in physiological composition containing the initial ingredients in the following ratio, in May,%:

Phosphate hydroxide 50,000

Protravitel hexatiuram. 20,000

Growth regulator

four

00 4

chlorocholin chloride

30,000

Seed treatment with a physiological composition was performed by dry honing in a rotating bell for 60 minutes. The physiological composition was prepared in advance and bras in the amount of k kg per 1 ton of seeds

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rapeseed and rapeseed and in the amount of 6 kg per 1 ton of fire, couch and regnery. The seeds were seeding at a rotation of the bell 25 turns per minute and the bell tilted at an angle of 28.

Before honing, the seeds were pretreated in the same bell with an adhesive, which was cotton oil, which was applied to the seeds in an amount of 1 kg / ton.

In the control, seeds of fire, couch, regneria and canola were processed in the composition in accordance with the prototype.

The results of the experiments are presented in table.1.

Example 2, Seeds of fodder beet varieties Winner, Polypas, Centauer and Ekkendorf sowing were subjected to dry treatment in a physiological composition containing the initial ingredients at the following ratio, mas:

Phosphatic hydrolyzate 66,513 Protravitel TMTD 33,259 Growth regulator

ivin, 222

Seed treatment with a physiological composition was carried out by dry-hoping in a rotating bell for 80 minutes. The physiological composition was prepared in advance and taken in the amount of 6.5 kg per 1 ton of seed. The seeds were housed under the bell rotation mode of 35 revolutions per 1 minute and the bell was tilted to 35 ° yi. Before honing, the seeds were pretreated in the same bell with an adhesive, which was used as high-rapeseed rapeseed oil, which was added to the seeds in 2.5 kg / ton

In the control, the seeds of fodder beet of the same varieties were processed in the composition in accordance with the prototype. The results of the experiments are presented in table. 2

Example 3. Seeds of silage maize Voznesensk 1, Voznesensk 2, Gum Desna and Democrat before sowing were subjected to dry processing in the physiological composition containing the original ingredients in the following ratio, masd:

ABOUT

Hydrolyzed phosphate 58,259

Protravitel to tigam 26,629

Growth regulator

ivin, 222

Zinc sulfate And, 890

Seed treatment was carried out by dry honing in a rotating bell for 50 minutes. Previously, the surface of the seeds directly in the rotating bell was treated with an adhesive, which was used as flax oil, which was introduced into the seeds in the amount of 1.75 kg / ton.

After this, a powdered physiological composition was made, which was prepared in advance, the composition was taken in an amount of 5 kg per 1 ton of corn seeds, Honing the seeds was carried out with the rotation mode of the bell 45 revolutions per minute and the bell tilted at an angle of 5 °.

In the control of the seeds of silage corn of the same varieties were processed in the composition in accordance with the prototype.

The results of the experiments are presented in table. 3

Example A. The seeds of forage pea Streletsky 31, Yuryuzen and Talisman and forage soy Victory, South 0 and Bucuri before sowing were subjected to dry processing in physiological composition containing the original ingredients in the following ratio, masd:

Hydrolyzed phosphate 58,259

Disinfectant

fentiuram26,629

Growth regulator

2,2-dimethylhydrazide

succinic acid 1,225

Ammonium molybdate 13 .887

The treatment of seeds with a physiological composition was carried out by dry honing in a rotating bell for 50 minutes.

Previously, the surface of the seeds directly in the rotating bell was treated with an adhesive, which was used as mustard oil, which was introduced into the seeds in an amount of 2 kg per 1 ton.

After this, a powdered physiological composition was added which was prepared in advance. In the present experiment, the physiological composition was taken in an amount of 3.5 kg per 1 ton of seed. The seeds were honed at a bell rotation mode of 40 revolutions per minute and the bell tilted at an angle of 40 °,

In the control, the seeds of peas and soybeans of the same varieties were processed in the composition in accordance with the prototype.

The results of the experiments are presented in table. four,

To determine the effectiveness of the proposed method in the basic variants adopted as a standard, the seeds of the same crops were sown.

The field germination of silage maize varieties has noticeably increased, which exceeded the control by 1.389-1.472 times, tab. 3. The productivity of JQ silage corn, depending on the varieties, increased 1,227-1,432 times. The content of crude protein in the succulent green mass increased 1.130-1.16 times and the total collection of irreplaceable

varieties, but without any processing. With an amino acid yield of 2.034, the study of yield and carrying out agrochemical analyzes selected accounting areas of 1 hectare in quadruplicate. The same production sites were selected in the control and experience, the results are presented in table. 1, 2, Zi4, which are obtained after mathematical processing by the method of B. Dospekhov.

2.203 times.

In tab. 4 shows an increase in the germination of seeds of peas and soybeans by 43.8 - 66.8% and an increase in the gross grain harvest by 21.0-31.1%. At the same time, the quality of feed grain also increased by 1.1-1.27 times the content of crude protein in it, and by 1.205 times by 1.252 times the content of lysine. As follows from the data presented to the last.

Tables 1, seed germination campfire Conducted scientific and economic and

physiological experiments on the feeding of various agricultural animals using grain, meal, as well as fresh-cut juicy green mass and silage confirmed a significant improvement in the quality of farmed fodder using the proposed method. The cotton oil used in the examples is

In the experiment, basostovny Dniprovsky was 66.86% higher than in control, seed germination Rostovy 31 increased by 58.36%, seed germination of regeneria Poltavka exceeded by 56.43%, germination of seed of Evvis was higher by 58.52%, the germination of seed rape Kubansky in experience exceeded 55.97%.

Simultaneously with the increase vzhojee-s contains gossypol, rapeseed oil

In the first year, these yields increased the yield of these forage grasses by vegetative mass, the collection of raw protein and the content of essential amino acid lysine in the protein: cutting green mass increased 1,504-1,860 times, the collection of raw protein increased 1,688-2,159 times the collection of lysine harvest increased by 2.294-2.718 times.

The seed germination of fodder beet, depending on the varieties, increased by 47, B9 - 58.01%, table. 2. At the same time, the total weight of 100 plants before the beginning of thinning increased by 1,368-1,394 times, which, with a very high seed germination, made it possible to eliminate a very laborious thinning operation in the experimental cases with a simultaneous decrease in the seeding rate. The productivity of crops of fodder beet increased at the same time in 1,204 - 1,366 times, the quality of fodder beet increased

contains erucic acids, flaxseed oil contains saponin, and mustard oil contains sinigrin. The listed natural bactericides in recommended oils are highly effective means of protecting seeds from mold and decay from the time they sow to the emergence. Vegetable oils themselves are fast-acting high-energy nutrition for germinating seeds and do not contaminate the soil, unlike mineral oils. Mineral oils for plants are not and

50 serve as a barrier to the osmotic flow of nutrients from soil microflora.

Thus, the entire oilseed shell of seeds, forming with the agreement

55 but the method is a complex-tailed contour of plant-animal origin, the most accessible in the physiological ratio for germinating seeds in the first hours and

crude protein in dry matter increased by 1.277-1.355 times, the content of lysine, in raw protein increased by 1.405-1.553 times.

The field germination of silage maize varieties has noticeably increased, which exceeded the control by 1.389-1.472 times, tab. 3. The productivity of JQ silage corn, depending on the varieties, increased 1,227-1,432 times. The content of crude protein in the succulent green mass increased 1.130-1.16 times and the total collection of irreplaceable

 Amino acids in yield 2.034 contain erucic acids, flaxseed oil contains saponin, and mustard oil contains sinigrin. The listed natural bactericides contained in recommended oils are highly effective means of protecting seeds from mold and decay during the period from sowing to the appearance of germination. The vegetable oils themselves are fast-acting high-energy nutrition for germinating seeds and do not contaminate the soil, unlike mineral oils. Mineral oils for plants are not and

serve as a barrier to the osmotic flow of nutrients from soil microflora.

Thus, the entire oilseed shell of seeds, forming with the agreement

but the method is a complex, complex contour of plant-animal origin, most easily available in a physiological ratio for germinating seeds in the first hours and

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the days of their lives. Due to the full complex of biological nutrition, field germination of seeds approaches laboratory, seedlings appear amicably and have a high starting growth rate, which is very important in their struggle for habitat and survival in conditions of competition with weeds. non-herbicidal clean technology.

Claims (1)

Invention Formula The method of seed treatment before sowing, including coating the seeds with an adhesive and subsequent dusting them with a mixture of filler, pickle eight five bodies and dietary supplements, characterized in that, in order to increase seed germination and improve plant growth during the initial growing season, vegetable oil is used as an adhesive in an amount of 1.0-2.5 kg per 1 ton of seed, and as a filler, phosphate hydrolyzate of keratin-containing raw materials in the following ratio of components, May. %: Phosphate hydrolyzate of keratin-containing raw material Protravitel Dietary supplements 50.0-66,519 20.0-33,259 0,222-30,0 Table Indicators of productivity of crops of forage grasses depending on the physiological composition used Bonfire Dneprovsky wheat grass Rostovsky 31 regneri Poltavka rape Evis rape Kuban Bonfire Lneprovsky dusty Rostovsky 31 regnery Poltavka rape Evis rape Kuban Accumulation of bonfire Lneprovsky wheat grass Rostov 31 regner Poltavka rape Evis rape Kuban Accumulation bonfire Dnieper wheat grass Rostov 31 Germination 9.8 + 1.13 83.1 + 2.57 56.2+ 1.65 89.0 + 3.16 58.3 ± 0.98 55.7 ± 1.7 56.1 + 1.27 91.2 ± 1, 88.3+ 2, 87.5 ± 2.29 Productivity, kg / ha M8 ± 16.3 629 + 23.3 316 + 12.6 351 4- 14.8 328 + 11.5 36A ± 17.7 506 +19.6 653 + 16, C 521 +15.2 653 +21.5 49.6+ 0.58 55.7 ± 1.34 57.2 + 1.23 55.1 + 1.06 55, A ± 0.89  ± 12.6 305 ± y, e 316 + 11.1 319 ± 8.5 357 + 13.3 crude protein in dry matter,% 15.1 + 0.1 | 6 17, + 0.52 1.7 ± 0.39 17.5 ± 0.75 1.8 + 0.2 18.0+ 0.61 25.1j: 0.93 22.6 + 0.68 2.9 + 0.78 lysine in raw protein,% 3,9 ± 0,085,3 + 0,053,6 + 0,06 2,0 + 0,01 + 2,5 + 0,091,9 ± 0,08 15, ± 0.19 15.5 + 0.2 22.7 + 0.51  + 0.56 22.3 + 0.27 21.8 + 0.93 one 49.6+ 0.58 55.7 ± 1.34 57.2 + 1.23 55.1 + 1.06 55, A ± 0.89  ± 12.6 305 ± y, e 316 + 11.1 319 ± 8.5 357 + 13.3  + 0.56 22.3 + 0.27 21.8 + 0.93 table 2 Indicators of productivity of crops of fodder beet, depending on the physiological composition used Winner Polipas Cetauer Eckendorf Winner Polipas Centauer Eckendorf Winner Polipas Centauer Eckendorf Winner Polipas Centauer Eckendorf Winner Polipas Centauer Eckendorf Germination% 57.8 + 2.57 90.1 +3.70 B1.3 ± 0.68 85.8 + 4.54 61.8+ 3.43 91.4 + 2.81 55.9+ 1.93 86.2 + 4.26 Total weight of 100 plants before thinning, g 87.2 + 3.23 119.4 + 8.58 83.1 + 2.26 86.9 ± 2.86. . 118.9 + 7.35 89.8 + 3.59 87.1 ± 4.75 Root crop productivity, c / ha 1064 + 32.1 1281 + 30.6 1051 ± 14.7 1275 + 37.9 1236 + 18.5 1689 ± 49.3 1062 + 29.1 1290 + 28.2 Accumulation of crude protein in dry matter,% 1.94 + 0.04. 2.57 ± 0.09 1.82 + 0.02 1.30 + 0.04 1.71 + 0.06 1.38 + 0.05. 1.87 + 0.08 1.91 + 0.03 2.44 + 0.0 Accumulation of lysine in raw protein,% 0.42 + 0.04 0.58 + 0.06 0.37 ± 0.01 0.56 + 0.03 0.43 + 0.01 0.62 + 0.05 0.38 + 0.02 0.59 + 0.01 56.3 ± 1.58 54.0 + 2.31 59.6 + 0.84 54.2 + 2.15 82.2 + 4.08 123.0 + 11.06 84.6 i 3.53 121.5 ± 4.85 83.4 + 3.19 968 + 24.5. 962 + 17.8 1185 + 11.3 972 + 22.4 1.25+ 0.07 1.26+ 0.03 1.74 + 0.05 0.1 + 0.02 0.37 ± 0.02 0.40 + 0.03 about, zb + 0,01 Continued table. one. 56.3 ± 1.58 54.0 + 2.31 59.6 + 0.84 54.2 + 2.15 twe,% 82.2 + 4.08 84.6 i 3.53 83.4 + 3.19 968 + 24.5. 962 + 17.8 1185 + 11.3 972 + 22.4 1.25+ 0.07 1.26+ 0.03 1.74 + 0.05 0.1 + 0.02 0.37 ± 0.02 0.40 + 0.03 about, zb + 0,01 1117 43 41012 Table 3 The productivity of crops silage corn depending on the physiological composition used Germination% Voznesensk 1 65.1 + 1.63 93, 4 + 1.6862.3 + 1.91 Voznesensk 2 b1.9 ± 1.92 92.8 + 1.8361.8 + 1.58 The gingiva6 1.3 ± 1.76, 7 + 2.1160.9 ± 0.89 Democrat 67.6 + 1.18 93.9 + .1.9662.0 + 1.62 The mass of absolutely dry matter in the phase of 5 leaves Voznesensk 1 0.69 ± 0.07 1.3 ± 0.080.63. + 0, Voznesensk 2 0.57 + 0.02 1.29 + 0.050, + 0.02 1 spring nka0.68 + 0.05 1.27 + 0.060.61 + 0.02 Democrat 0.58 + 0, 0.98 + 0.060.52 + 0.05 Silage mass productivity, c / ha Voznesensk 1 756 ± 11.6 928 + 17.5709 + 8.23 Voznesensk 2 863 +.12.9 1061 + 29.3762 + 8.91 Desna Nka851 + 10.2 1059 + 25.8758 + 6.58 Democrat 626 + 7.51 897 + 16.2597 + 7.25 The accumulation of crude protein in dry matter,% Voznesensk 9.4-0.23 10.8 + 0.289.2 + 0, Voznesensk 2 9.1 + 0.18 10.3 ± 0,, 9 + 0.12 Gum Nka9.2 + 0.17 10, 4 +0.199.1 + 0.36 Democrat9.1 + 0.08 10.6 t 0.329.0 + 0.16 The accumulation of lysine in raw protein,% Voznesensk 1 2.9 + 0, 3.9 ± 0.092.9 ± 0.02 Voznesensk 2 2.7 + 0.05 3.5 + 0.072.7 ± 0.01 Gum Nka2.7 ± 0.03 3.5 + 0.092.7 + 0.0 Democrat 2.8 + 0.03 3.6 + 0.082.8 + 0.03 13: 174341014 Table Indicators of productivity of sowing leguminous crops depending on the physiological composition used