RU1802977C - Method of presowing pea seeds treatment - Google Patents

Abstract

Use: in agriculture for pre-sowing seed treatment. SUMMARY OF THE INVENTION: Pea seeds are moistened with a solution of 2-chloroethylphosphonic acid, to which ethamone is added in a ratio of 1: Sound concentration O, 025-0.1% 7-60 days before sowing. 6 tab.

Description

The invention relates to the field of agriculture, and in particular to the use of growth regulators in agricultural practice.

The purpose of the invention is to increase the drought tolerance and productivity of peas.

The goal is achieved by pre-sowing seeds with a 50% aqueous solution of a mixture of 2-chloroethylphosphonic acid and ethamon, taken in a ratio of 1: 3 at a concentration of 0.025-0.1 7-60 days before sowing. For processing, PS-10, PSSh-3, PU-ZA, PZ-10 machines are used. Kolos, Mobitoks and others.

Since the seeds in the production are prepared for sowing in advance, it was determined whether early treatment of the seeds with hydrophos does not affect the quality of the seeds. It turned out that it is possible to treat hydrophoses both a few days before sowing and in advance (2 months): seed germination does not change.

Achievement of the goal is confirmed by the data presented in the table. 1-6.

So, for three years of field testing of hydrophos according to the method of pre-sowing treatment

seeds with a 0.1% solution received annually a substantial increase in the yield of seeds of peas of the Aist variety, averaging 4.6 c / ha or 16.7% of the untreated control (Table 1). The same or slightly lower increases were obtained by treating hydrophosomes at lower concentrations (up to 0.025%). At concentrations of hydrophos exceeding O, 1%, although yield increases are obtained, however, they are not so large and are unlikely to be justified due to sanitary and hygienic reasons.

Checking the hydrophos on a different cultivar (Streletsky 31) in 1989 confirmed the previous findings: at a dose of 2.5-10 g / t seed, which corresponds to a concentration of 0.025-0.1%, hydrophos increased the seed yield of this variety by 4, 5 c / ha or 15.7.% In relation to the untreated control.

At the same time, yield increases from the use of HEFA and ethamon separately were mostly lower and statically unreliable.

The increase in productivity under the influence of hydrophos is based on intensification

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qi of synthetic and metabolic processes in peas, stimulation of the formation of beans (from 7.2 pcs / plant, in the control to 8-8.3 pcs / plant in the experiment), increased drought tolerance due to the development of a more powerful root system (Table 2 ) So, pea plants from seeds treated with hydrophos accumulated dry matter of leaves and stems 37.2-40.0% more than in the untreated version (under the influence of 2-HEP K, only 12.5-24.7%, respectively) . The root mass exceeded the control by 10.6-41.4% (under the influence of 2-HFCA, it was 7.4% lower than the control or within the experimental error). The core root of the experimental plants was somewhat longer and branched,

Similar data were obtained on 12-day-old seedlings of Streletsky 31 cultivar (Table 3).

Hydrophos intensifies the metabolic processes, as a result of which more crude protein accumulates in the biomass, both in comparison with the untreated version, as well as HEFA analogues and ethamon, which increases the nutritional value of green fodder. In seeds, the protein content under the influence of hydrophos and 2-ChEFA is almost the same. However, taking into account the increased by 4.6 c / ha under the influence of the hydrophos of the seeds, ultimately the collection of crude protein from 1 ha together with the seeds increases by 34% (Table 4).

From the early development period, increased resistance to drought is induced in pea seedlings, as can be seen from Table 4, which shows that pea seeds treated with hydrophos are able to produce not only a higher percentage of germinating (with germinal roots) seeds, but and to carry out more intensive growth of seedlings (to develop a bud) under conditions of physiological dryness.

and

Morphobiological changes in the root system under the influence of hydrophos in the direction of increasing its mass contributes to better supply of pea plants with water and, therefore, increases drought tolerance (Table 2) and pea productivity, both under the conditions of the growing experiment (Table B) and field 1987 years, when in July the supply of precipitation amounted to only 16.5% of the average long-term norm (Table 1). In the latter case, the maximum yield increase from hydrophos was 6.2 c / ha, and from 2-HEPC only 3.8 c / ha.

Thus, hydrophos has advantages over 2-HEPA and ethamon standards in increasing seed yield and collecting crude protein from 1 ha, in increasing drought resistance and economic efficiency of pea cultivation. The treatment of seeds with hydrophosomes does not require additional costs, since it is combined with the obligatory agro-method - dressing of seeds. The substance is notable for its low cost and, therefore, its cost for processing the hectare norm of seeds (0.8-2.5 g / ha) is 1-1.2 kopecks. Being a mixed preparation, hydrophos reduces the toxicological hazard. Using it according to the method of pre-sowing seed treatment contributes to environmental protection.

Claims (1)

The claims A method of pre-sowing treatment of pea seeds, which includes moistening the seeds with a solution of 2-chloroethylphosphonic acid, and so on, so that, in order to increase the yield and drought tolerance of the seed, before moistening to the solution 4-chloroethylphosphonic acid is added ethamone in a ratio of 1: 3, and humidification is carried out with a solution of the mixture at a concentration of 0.025-0.1% 7-60 days before sowing. ...../ Table 1 10 fifteen twenty 25 thirty 40 The effect of pre-sowing seed treatment with growth regulators on yield pea varieties (t / ha) Table 2 Morphobiological state of 35-day-old plants of peas of the Aist variety, depending on the pre-sowing treatment of seeds with growth and drought regulators (experience in aquatic culture) Table 3 Morphobiological state of 12-day-old seedlings of peas of the Streletsky 31 variety depending on the pre-sowing treatment of seeds with growth regulators (experiments in rolls) Continuation of the table. 1 Table 4 Crude protein content in leaves, stems and seeds of peas of the Aist variety under the influence of pre-sowing treatment of seeds with growth regulators (in% of absolutely dry things., 1988) Table 5 Effect of treatment of pea seeds with physiologically active substances on their germination under physiological dry conditions (in a 20% dextran solution)  significantly at 0.95  Significantly at 0.99 Continuation of the table. 3  Table 6 The effect of hydrophos on the seed crop of peas of the Orlovchanin variety under drought conditions