UA83593C2 - Method for stimulating growth and development of rice plants - Google Patents

Abstract

A method for stimulating the growth and development of rice plants which includes presowing treatment of rice seed by means of soaking thereof in the course of 0.5-2.0 hrs. in an aqueous solution of polyhexamethylene guanidine hydrochloride of a general formula:,that increases the yield and improves the quality of the mature rice grain.

Description

heating at a temperature of 30"-357"C during melting, seed germination, as well as the growth and development of the day to increase the germination of seeds, the survival of rice sprouts in the early stages of ontogenesis of plants and increase the yield of rice (Pato and against the herbicide background in model experts of the Russian Federation Mo2265303, class A 01 C 1 / 00 dated 05.6.20021. An increase in seed germination was determined

Disadvantages of the known method include rice on 15-3595 (Table 1, 2, 3), as well as the high labor-intensiveness of long-term heating on the energy of germination on 15-3795 in comparison with rice soaking in a solution of copper sulfate, significant - roll (k.) from unprocessed seeds. The consumption of the active substance due to its use in stimulating the growth indicators of rice sprouts in relatively high concentrations (0.595 solution) and three varieties by 1.7-3.0 times in the experimental variants with, as a result, expensive treatment, as well as insufficient pre-sowing treatment of seeds with solutions, was revealed poly- high growth of field germination of seeds and guanidine, and to a greater extent - on the herbicide yield of rice (by a total of 1.0-2.295). my background Stimulation of germination and morpho-

As the basis of the claimed invention, the cladometric indicators of rice after pre-sowing for the task of expanding the range of biological treatment of seeds with solutions of PGMG NSII significantly more active substances - plant growth stimulants exceed the indicators of the prototype. Optimum rice, reducing the labor intensity of the processing process for processing the seeds of the studied varieties of rice are concen- seeds, increasing its germination (germination), ntration of PGMG NSI in the range from 0.00195 to as well as increasing the yield of rice. 0.07590.

The task is solved as follows Example 2. The influence of pre-sowing treatment - in the method of stimulating the growth and development of plants by making seeds with the preparation PGMG NOSI of three different rices, which includes pre-sowing treatment of seeds according to the ripening periods of rice varieties, on the yield - by soaking or spraying was studied the difference of these varieties of rice in field conditions in 2005 in terms of trace elements or biologically active in 2006 (Tables 4, 5). An increase in yields with subsequent drying, yield operation of all varieties of rice by 6.5-19.595 in the experimental methods of soaking (spraying) rice seeds was determined compared to the control, which was significantly increased within 0.5-2.0 hours. in an aqueous solution exceeds the corresponding indicators of the basic method.

PGMG NOSI, of the general formula: An increase in the number of grains in the lot was also revealed by 30-3395 in experimental samples (Table 5). Optimal for processing the seeds of the studied varieties

MN NSI of rice is the concentration of polyguanidine in the range of

H n 0.00195 to 0.07590.

E Example 3. The influence of pre-sowing fertilizer with molecular weight from 5 to 9 thousand molecular weight was studied. unit and treatment of rice seeds of various varieties with poly-concentration of the active substance 0.001-0.07595 and guanidine per mass of 1 thousand grains and the content of the total consumption of the working solution at a dose of 10-12 l per 1 ton of protein in a ripe grain of rice grown in the field. under the conditions of 2005-2006, an increase was determined

The essence of the invention for the method of stimulating the growth of the mass of 1 thousand rice grains by 5-995 in different years of reproduction and development of rice plants is explained by examples of duction in experimental variants (Table 6). The content of determinations, the repeatability of model and field samples increased by 9-4996, which indicates the sign of experiments - 4-fold. In model experiments, a significant improvement in the quality of rice grain was achieved when rice sprouts were grown in rolls of filter and pre-sowing treatment of seeds with solutions of bulk paper in an aqueous medium (pure polyguanidine background) or in a herbicide solution at x257C in thermos. (up to 4 days), then - at room temperature of rice of different varieties grown in the field, germination (EP) was determined on the fifth day, with PGMG solutions of the NSI, confirmed that along with the zhist - on the seventh, selection was carried out of seedlings and increasing the yield of rice, the quality of mature grain was measured by the length of roots (1) and sprouts (3). is growing significantly. This once again proves the positive

Biochemical indicators of rice grain were determined by the standard effect of pre-sowing treatment of rice seeds by oral methods |Methods of biochemical research by a proposed method for obtaining high yields of plants / Ed. A. I. Ermakov. - L.: rice crops of improved quality.

Agropromizdat, 1987. - 430p). Statistics were carried out. The use of the claimed method in the technical processing of the obtained experimental data allows agriculture to stimulate them with standard methods (Rokytskyi P.F. their stability, which ultimately leads to 1973. - 318p|. The deviation from the average for each leads to an increase in the yield of rice grain and the statistical series does not exceed 595 from the average to improve its quality. The implementation of the proposed values. | of the new invention will also allow significantly under

Example 1. The effect of pre-sowing to increase the efficiency of agricultural production of rice seeds of three varieties by soaking in the field of rice breeding was studied, especially in (spraying) for 0.5-2.0 hours. water adverse conditions of agriculture in the steppe solutions (districts) of PGMG NSI (polyguanidine) from the molecular zones of Ukraine and the CIS countries during climate warming with a molar mass of 5 to 9 thousand. unit and concentration in general. ratio of 0.001-0.07595 on indicators of the energy of growth

Table 1

The influence of pre-sowing treatment of Ukraine 96 rice seeds with polyguanidine on the morphometric indicators of sprouts on a clean and herbicide background (7-12 days) -

The name is similar to the sample, the type of usage KE I - I K I - o Fo from Fo from Fo from Fo from Fo from Fo from work lo mm oy me (em yam Tov) me |Mey we (oo

Kk Kk Kk Kk Kk Kk

Clean background, water

Control 85 18 | 100 | 11 100 | 28 71001 19 1001 32 | 1001 25 | 100 0.07590 grade of polyguanidine 95 20 | 111 11 100 | 30 | 107 | 18 95 31 97 22 88 0.059 - « 90 28 | 156 | 11 1001 59 | 210 | 21 111 80 1 2751| 30 | 120 0.0495 - « 90 23 11281 12 11101 54 | 1931 23 | 121 59 184 39 | 156 0.039 - « 90 33 | 183| 14 1127 1 62 | 221 21 111 84 | 262 | 28 | 112 0.029 - « 95 34 | 181 12 11091 64 | 228 | 23 | 121 78 | 2441 34 | 136 0.0195 - « 95 23 | 127 | 11 100 | 51 182 | 21 111 65 | 2031 35 | 140 0.00195 - « 95 32 |178| 12 11091 55 | 196 | 21 111 78 | 244 | 34 | 136

Herbicidal background, dialens - 10 mg/l

Control 80 12 | 100| 710 | 1001 15 |1001 17 | 100 | 16 | 100 | 19 | 100 bo rnpoliY 5 | 45 | 1251| what | h00| 22 | 147 | h4 | in | gi | 131 | ate | 95 guanidine 0.059 - « 90 17 | 142 | 11 |1100| 24 | 160 | 14 82 26 | 125 | 15 79 0.0495 - « 90 24 | 200 | 11 1101 32 | 2131 17 | 100| 33 | 206 | 24 | 126 0.039 - « 90 19 1 158| 10 1001 24 | 160 | 16 94 24 | 114 | 22 | 116 0.029 - « 95 27 | 225| 12 | 120 | 41 273 | 23 | 1351 34 | 212 | 24 | 126 0.0195 - « 95 23 | 192 | 11 1101 30 | 200 | 15 88 31 194 | 22 | 116 0.00195 - « 95 26 | 216 | 10 |100| 34 |227 | 18 | 106 | 35 | 219 | 22 | 116

The sampling error does not exceed 595 of the mean

Table 2

The influence of pre-sowing treatment of Dniprovsky rice seeds with polyguanidine on the morphometric indicators of sprouts on a clean and herbicide background (7-12 days) -

Name | similarity of the sample, type of ob- o, 77 577 577 077 gud gud ze Geroreee o zh po re

Kk Kk Kk Kk Kk Kk

Clean background, water

Control 90 44 | 100 | 18 100 | 46 100 | 31 100 | 51 100 | A 100 0.07590 r.n. polyguanidine 95 56 | 127 | 20 111 66 143 | 39 | 126 | 70 137 | 52 126 0.059 - « 95 52 | 118 | 20 111 69 150 | 32 | 1031 93 182 | 49 119 0.0495 - « 100 60 | 19361 20 111 72 156| 34 | 110 | 88 173 | 54 | 132 0.039 - « 95 56 | 127 | 25 139 | 67 | 146 39 | 126 | 76 149 | 56 137 0.029 - « 95 60 | 136 | 20 111 79 172| 39 | 126 | 90 176 | 53 129 0.0195 - « 95 70 11591 20 111 81 176| 42 | 1351 90 176 | 57 | 139 0.00195 - « 100 67 | 1521 21 117 | 80 170 | 42 | 135 | 86 168 | 57 | 139

Herbicidal background, dialen C - 10 mg/l

Control 85 32 | 100 | 19 100 | from 36 1001 29 1100 | 39 100 | 40 100 007536 district of Poli| ov 49 | 153| 22 | 146 | 52 | 144 | 34 | 117 | 54 | 138 | 47 | 418 guanidine 0.059 - « 100 35 | 109 | 19 100 | from 36 100 | 26 90 A 105 | 36 90 0.0495 - « 100 36 | 113 | 23 121 37 | 103) 27 93 41 105 | 42 105

Continuation of table 2 0.039 - « 100 34 |106| 24 | 126 | 35 97 Z0 | 103 | AND! 105 | 47 | 118 0.0295 - « 95 42 | 1391 22 | 116 | 42 | 117 | from 103 | 50 128 | 43 108 0.0195 - « 100 46 | 144| 20 | 1051 46 | 128 | from 103 | 47 | 121 44 by 0.00195 - « 100 50 | 156 | 21 110 | 50 | 139 | 32 PO | 54 | 138 | 44 | 110

The sampling error does not exceed 595 of the mean

Table C

The effect of pre-sowing treatment of Antey rice seeds with polyguanidine on the morphometric indicators of sprouts on a clean and herbicide background (7-12 days) -

Name and I I I I I I I

Similarity, sample, type of ob- o i - 7 - i - a t t tt uch St och NO pt NS uch PSO in works (I (I Kk. Kk. (I (I

Clean background, water

Control 90 53 | 100 | 21 100 | 59 100 | 39 100 | 70 |100 1 42 | 100 o, - - 0.07575 r-n for 95 77 | 145| 24 | 1144 | ov | 166 | zv | 97 | 105 | 15BoO| 41 | 98 liguanidine 0.056 - « 95 72 11361 23 | 110 | 95 161 41 1051 96 | 137 | 43 | 102 0.0495 - « 100 59 | 111 23 | 1101 62 1051 Z38 97 68 97 43 | 102 0.039 - « 95 6bb | 1241 22 | 1051 83 141 35 90 84 | 120 | A 98 0.029 - « 95 52 98 22 11051 72 1221 38 97 77 |110 1 45 | 107 0.0195 - « 95 64 | 121 22 | 105 | 78 132 | 39 100 | 82 | 117 | 42 | 100 0.00195 - « 100 42 79 20 95 because 102 | 35 90 67 96 40 95

Herbicidal background, dialens - 10 mg/l

Control 85 46 | 100 19 | 100 | 49 100 | 32 100 | 50 171001 33 | 100 0.07590 polyguanidine grade 95 61 133 | 22 | 115) 66 102 | 38 116 | 67 | 134 | AND! 126 0.056 - « 100 52 |1131| 20 | 1051 58 1181 37 | 114 | 60 | 1201 39 | 118 0.0495 - « 100 46 | 100 17 89 52 106 | 29 90 53 | 106 | 31 94 0.039 - « 100 43 94 19 | 100 | 50 102 | 33 103 | 51 102 | 34 | 103 0.029 - « 95 33 72 19 | 100 | 41 84 33 103 | 43 86 Zb | 110 0.0195 - « 100 57 | 124 | 22 | 115 59 120 | from 8 115 | 61 122 | 43 | 142 0.00195 - « 100 from b5 21 111 39 80 34 | 106 | 40 80 37 | 122

The sampling error does not exceed 595 of the mean

Table 4

Characteristics of the Ukraine 96 rice crop from a field experiment (Skadovsk, 2005) after pre-sowing seed treatment with polyguanidine solutions -

Name of the sample, type of processing

Fig. Ukraine 96, control 100.0 test - 0.0495 g polyguanidine test - 0.0295 g polyguanidine 119.5 test - 0.00195 g polyguanidine 115.0

The sampling error does not exceed 595 of the mean

Table 5

The influence of pre-sowing treatment of rice seeds with the drug polyguanidine on the parameters of the crop grown in the field under randomized sowing (Rice Institute of the Ukrainian Academy of Sciences, Skadovsk, 2006)

Name of the sample, type of processing Moisture, "ol 96, medium - early con- 13.6 100 100 78.3 100.0

Test - 0.0295% polyguanidine 13.6 130 130 83.4 106.5

Dnipro rice, early control 13.6 124 100 71.3 100.0 experiment - 0.02905 percent polyguanidine 13.6 120 96 81.0 113.6

Anteus fig, late control 13.6 140 100 77.0 100.0

Test - 0.0295% polyguanidine 13.6 187 133 85.5 111.0

The sampling error does not exceed 595 of | medium

Table 6

The influence of pre-sowing treatment of rice seeds with the drug polyguanidine on the weight of 1 thousand grains, the content of total protein in mature grain grown in the field (Rice Institute of the Ukrainian Academy of Sciences, Skadovsk, 2005-2006) and

Name of the sample, type of moisture content, 95 percent echovyn

Harvest of 2005

Fig. Ukraine 96 control 9.0 62 100 26.2 100 p. R . Not given 00495 district Polyguany 8.8 62 100 28.5 109 nYsh v/v. . Not given 0.0276 r-nu polyguana 8.0 v.74 109 27.5 105 ni v/v. that experiment 0.001965 r-nu polygua 9.0 6.4 103.2 25.8 99 no

Harvest of 2006

Fig. Ukraine 96 control 12.0 3.9 100 29.6 100 p. R . No experiment - 0.02905 r-nu polyguany 12.0 5.8 149 304 103 dyna

Rice Dnipro control 12.0 51 100 28.5 100 p. R . No experiment - 0.02905 r-nu polyguany 12.0 6.6 129 29.4 103 dyna

Fig. Antei control 12.0 4.5 100 25.1 100 p. R . No experiment - 0.02905 r-nu polyguany 12.0 6.3 138 272 108 dynes

The sampling error does not exceed 595 of the mean

Computer layout V. Klyukin Signature Circulation 26 approx.

Ministry of Education and Science of Ukraine

State Department of Intellectual Property, str. Urytskogo, 45, Kyiv, MSP, 03680, Ukraine

SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, Kyiv - 42, 01601