RU2078066C1 - Nitrogen fertilizer with growth regulator of plants - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: proposed composition comprises nitrogen fertilizer and growth regulator of plants. Said regulator represents mixture of sodium salts of mono- and dicarboxylic acids; ammonium sulfate, carbamide and nitroammophoska may be used as said nitrogen fertilizer. EFFECT: increased productivity of crops, increased content of starch and vitamin C. 4 cl

Description

 The invention relates to new compositions of substances, namely to new compositions based on nitrogen-containing fertilizers with the addition of a plant growth regulator.

 Known nitrogen-containing fertilizer with plant growth regulator (paclobutrazole, flurprimidol, mefluidide) / European application N 0160210 publ. 03/26/75 /. The growth regulator is used both independently and in a mixture with nitrogen-containing fertilizers. The disadvantage of this method is that these growth regulators inhibit the growth of plants, i.e. act as retardants and are introduced into the soil at the stage of top dressing.

 Also known is a nitrogen fertilizer containing sodium nitrate, in the composition of which, to increase the sugar content of sugar beets, mono- and dicarboxylic acids are introduced in an amount of 0.3 to 1.5 wt. / A.S.SSSR N 510462, publ. 02.02.74 / C 05 C 5/02.

The disadvantages of this composition is that
sodium nitrate, used as a fertilizer, is a small-tonnage and low-concentrated fertilizer, since the content of the nutrient is 15 -16%
sodium nitrate is a very specific fertilizer, since it is not used on all types of soil, it is used for crops that prefer the nitrate form of nutrition and is applied only for pre-sowing cultivation and top dressing of plants during the growing season, and its long-term use leads to soil leaching;
the concentration of carboxylic acid additives that make up the fertilizer is determined by the technological conditions of production, is not stable and depends on the solubility of acids in these conditions;
production technology of the composition sodium nitrate; a mixture of acids is multistage and energy intensive.

 The objective of the invention is to increase the yield of crops by creating a composition based on mineral fertilizers with growth substance.

 The technical result is achieved by the fact that in a nitrogen fertilizer with a plant growth regulator, a composition based on a mixture of sodium salts of carboxylic acids, which is a waste of the chemical production of caprolactam (TU 113-03-488-84) of the following composition, is used as a growth regulator, 7 sodium salts of dicarboxylic acids 7 12; sodium salts of carboxylic acids 6 20; caustic soda no more than 1% impurity of organic compounds no more than 1% The content of the additive in nitrogen fertilizer is 0.005-0.1% (50-1000 g / t) by weight of the fertilizer in terms of the amount of dicarboxylic acids.

 Dicarboxylic acids in the mixture of sodium salts of carboxylic acids increase the mobility of elements of mineral nutrition of fertilizers, facilitate the flow from the soil, utilizing them in organic forms. As a result, the energy of germinating seeds and the physiological activity of plants increase, which leads to increased crop yields, improved quality, and resistance to diseases.

 Various types of fertilizers are used as a mineral fertilizer into which the growth substance is introduced, including nitroammophosk, ammonium sulfate, urea.

 Example 1. Obtaining a composition of nitroammophos and plant growth regulator.

Nitroammofosku composition N: P ₂ O ₅ : K ₂ O = 16: 16: 16 at a temperature of 50 ^o C 60 ^o C is treated at the place of transfer from the conveyor belt to the screw with a solution of growth additives (t 30 50 ^o C)), which is fed to nozzle from a pressure tank. A mixture of sodium salts of carboxylic acids is sprayed onto nitroammophos granules at a rate of 0.01 wt. in terms of the amount of dicarboxylic acids (0.9 1.3 kg of mixture per 1 ton of fertilizer). The treated fertilizer is mixed in the auger and fed to the inlet of the vibration dryer, where it is dried at a temperature of 80 90 ^o C to completely remove excess moisture. Next, the product enters the vibratory cooler, then into the hopper and packaging.

 Example 2. Obtaining a composition from urea and a plant growth regulator.

Granular urea (t 50 ^o C) is treated at the place of pouring from the conveyor belt with an additive solution (t 30 50 ^o C). The additive is supplied from the pressure tank, the consumption of the additive is 0.5 -1.0 kg per 1 ton of fertilizer. The treated fertilizer is fed to a vibrating dryer at t 80 90 ^o C, where excess moisture is removed. Further, the fertilizer enters the vibration cooler, then to the hopper and packaging.

 Example 3. Obtaining a composition of ammonium sulfate and plant growth regulator.

 Crystalline ammonium sulfate is treated at the point of pouring from the conveyor belt with an additive solution, which is fed to the nozzle from the pressure tank. The consumption of additives is 0.5 5.0 kg / t (with a total content of dicarboxylic acids of 8 to 11%). Next, the product is packaged in bags or loaded into cars in bulk.

 The advantage of the proposed new assortment of nitrogen-containing fertilizers with a growth regulator can be realized using existing technologies at the plants of the industry with the addition of equipment for introducing substances of a growth regulator, the installation cost of which is low.

As can be seen from the presented examples, the addition of a growth regulator is applied to the finished product without polluting the production line, which creates safe conditions for the production of fertilizer. The temperature conditions for the introduction of the additive are 50-60 ^o C, which, unlike the analogue does not allow the components to volatilize, lose the biological activity of dicarboxylic acids and pollute the environment.

 The obtained nitrogen fertilizer with the addition of a growth regulator has improved agrochemical properties: the pH of ammonium sulfate without an additive is 4.9, and the introduction of the additive in an amount of 0.1 wt. in terms of the amount of dicarboxylic acids, the pH rises to 6.3, which allows the use of fertilizer on acidic soils.

 The predominantly proposed nitrogen fertilizer with a growth regulator, unlike sodium nitrate with the addition of carboxylic acids, consists in the possibility of using the proposed compositions on a wide range of crops; cereals, rice, vegetables, potatoes and with various methods of fertilizing; as the main, sowing and feeding.

 Example 4. The effect of the composition (NPK-fertilizer plant growth regulator) on the yield and quality of potato varieties "Detskoselsky".

The plot field experiments were carried out at the Department of Soil Science of the Leningrad Agricultural Institute (LSHI). The soil is soddy-slightly podzolic, medium loamy. The area of the accounting plot is 4.2 m ² . The fertilizer application rate of 50 kg per 1 ha, fertilizer is placed in rows during sowing. In the control variant, the potatoes were cultivated without fertilizers; the nitroammophosk composition N: P ₂ O ₅ : K ₂ O = 16: 16: 16 was taken as an analogue.

 As a result of the experiment, it was found that the composition of the fertilizer plant growth regulator increased the yield of potatoes by 3.2 t / ha (≈ 20%) compared with the use of standard fertilizer.

 This study also determined the chemical composition of potato tubers. It was established that the composition fertilizer plant growth regulator increases the accumulation of starch (≈ 11%), stimulates the synthesis of asynchronous acid (≈) by 17%).

 Example 5. The effect of the composition of the urea plant growth regulator on the productivity of barley cultivar Zazersky.

 Field experience was conducted at the Butikovo state farm in the Tula region. We used the urea plant growth regulator composition; in the quality of control, we used the option without fertilizers and urea without plants additives. Sown areas of 2 hectares. Fertilizer was applied immediately before sowing; the application rate of 90 kg on 1 ha.

 The experiment established an increase in grain yield of 5.5 c / ha (18%) compared with the version where standard urea was used.

 Example 6. The effect of the composition of the urea plant growth regulator on the yield of cabbage.

Field experiments were conducted at the Department of Soil Science of the Agricultural Institute. The experiments are based on sod-weakly podzolic medium loamy soil. The composition (urea growth regulator) was applied at a dose of 50 kg ai. per 1 ha and in a double dose of 100 kg d. on 1 ha. The area of the accounting plot is 4.2 m ² . In the control version, carbamide without growth additives was used.

 It was established that the composition fertilizer plant growth regulator contributed to the growth and development of cabbage, a yield increase of 2.0 to 4.5 t / ha (5–15%) was obtained, while the content of vitamin C in the production increased.

 Example 7. The effect of the composition of ammonium sulfate - plant growth regulator on the growth, development and yield of rice.

 The studies were conducted on the basis of the Krasnodar Agrarian University at the state farm "Chernoorkovsky" Slavic region. Field experiments, plot experiments, test culture rice of the Liman variety. Ammonium sulfate without additives was used as a control.

 Observations showed that in the plot where the composition was applied, the seedlings were uniform, the seedlings were more viable, 12% more chlorophyll was accumulated in the rice leaves compared to the control. It was also shown that the use of the composition increased the mass of 1000 grains and reduced voidness, rice productivity increased by 2.6 c / ha compared with the control.

 Example 8. The effect of the composition of ammonium sulfate plant growth regulator on the productivity of barley and its quality.

 Field experiments were conducted at the Dolgoprudnaya Agrochemical Experimental Station. D.N. Pryanishnikova (DAOOS) on sod-podzolic heavy loamy soil. The composition of ammonium sulfate was a mixture of sodium salts of carboxylic acids (0.10% by weight of fertilizer) at a dose of 60 kg ai / ha. In the control variant, ammonium sulfate without growth additives was used.

It was found that the composition of ammonium sulfate plant growth regulator increases the yield of barley grain in straw by 4.1 c / ha (13.0%) and 9 c / ha (15%), increases the protein yield by 12% increases the utilization of nitrogen sulfate ammonium due to additives by 10%
The results of agrochemical tests conducted over several years on cereals and vegetables, showed the advantage of using the inventive composition fertilizer plant growth regulator a mixture of sodium salts of carboxylic acids.

 It was found that the optimal concentration of additives in the composition of the fertilizer 0.005 0.1 wt. in terms of the amount of salts of dicarboxylic acids, depending on the type of fertilizer and cultivated crop.

 The use of growth additives in the composition of nitrogen fertilizer allows to increase grain productivity against moderate nitrogen nutrition by 10 -15% potatoes by 18% cabbage by 5-15% due to more productive use of nitrogen, to improve the structure and quality of crops (increase the content of vitamin C, starch) reduce voidness.

The use of the claimed composition of the specified composition makes it possible to reduce the dose of fertilizer by 10 15%
Example 9. The sanitary-toxicological system of a mixture of sodium salts of carboxylic acids.

The mid-lethal concentration (LD ₅₀ ) during intragastric and intraperitoneal administration was determined on female white rats and mice. The LD ₅₀ for male white rats was 1644 ± 161 mg / kg body weight. With intragastric administration of animals, no deaths were recorded with the introduction of a maximum dose of 5000 mg / kg of animal weight
The skin-irritating effect was also not fixed, the absence of cumulative properties and allergenic effects was noted.

 Thus, a mixture of sodium salts of carboxylic acids when acting through the gastrointestinal tract can be evaluated as a low-toxic substance.

Claims (4)

 1. Nitrogen fertilizer with plant growth regulator, characterized in that the growth regulator uses the waste product of the chemical production of caprolactam containing an aqueous solution of a mixture of sodium salts of dicarboxylic acids of succinic, glutaric, adipic 7 12% sodium salts of monocarboxylic acids 6 -20% sodium hydroxide more than 1% impurities of other organic products not more than 1%, while the content of the growth regulator is 0.005 0.1% by weight of fertilizer in terms of the amount of dicarboxylic acids. 2. The fertilizer according to claim 1, characterized in that as a fertilizer it contains a complex NPK fertilizer with a ratio of NP ₂ O ₅ K ₂ O 16 16 16.  3. The fertilizer according to claim 1, characterized in that it contains urea as a fertilizer.  4. The fertilizer according to claim 1, characterized in that it contains ammonium sulfate as a fertilizer.