RU2660929C2 - Organic component of the nutrient mixture for plants - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Use of lignosulfonates modified by nitration with concentrated nitric acid, or nitrosation, using sodium nitrite and a solution of acetic acid, as an organic component of the nutrient mixture for plants.

EFFECT: invention allows to expand the assortment of the nutrient mixtures for plants.

1 cl, 5 ex

Description

The invention relates to crop production, in particular to means designed to provide plants with nutrients.

For the normal development of plants requires a whole set of nutrients. The need to replenish their reserves is due to the fact that several times more nutrients are taken out from the crop than can come from natural sources. Macronutrients - nitrogen, phosphorus, potassium - and micronutrients act as nutrients.

Micronutrient fertilizers are used in small quantities, mainly in the form of root and non-root top dressings, and the best effect, especially on fruit and berry crops, is provided by non-root top dressings. For this purpose, boric, manganese, molybdenum, iron, copper and zinc micronutrients are most often used. Both individual compounds containing the necessary nutrient and mixtures of various compositions are used.

Biogenic metals can be used both in the form of inorganic salts, and in the form of salts with a number of organic compounds of various nature, including complexones [Dyatlova NM, Temkina V.Ya., Popov KI Complexones and complexonates of metals. - M .: Chemistry, 1988. - 544 p.]. Ethylene diamine tetraacetic acid, diethylenetriaminopentaacetic acid, nitrile triacetic acid and others are used as complexones.

Known nutrient mixture containing a set of nutrients, which includes a lignin derivative - lignogumate (TU 2431-007-71452208-05). Lignohumate is obtained as a result of a multi-stage high-temperature alkaline modification of technical lignosulfonates.

It is proposed to use lignosulfonates modified by nitration or nitrosation as an organic additive in the composition of the nutrient solution.

There are various ways of using modified nitration or nitrosation of lignosulfonates:

1) In the production of paper [Chudakov M.I., Rusina N.A., Kirpicheva L.M., Mironova Yu.Ya. Modification of lignosulfonates by nitration and their use in paper production // IVUZ Forest Journal. - 1977. - No. 6. - S. 125-127];

2) In the construction industry to accelerate the hardening processes of Portland cement [Topilsky T.V. The effect of nitrolignosulfonates on the hardening processes of Portland cement // Journal prikl. chemistry. - 1981. - t. 54, No. 1. - S. 7-14];

3) For the degumming of sulphite pulp [Chudakov M.I. et al. Desalting of sulfite cellulose with solutions of nitrated ligno-sulfonic acids // Boom. industry. - 1973. - No. 6. - S. 5-6];

4) To influence the vegetation of weeds and seedlings of spruce [Marich S.N. et al. Evaluation of the effect of modified lignosulfonates on the vegetation of weeds and seedlings of spruce in forest nurseries // IVUZ Forest Journal. - 2015. - No. 3. - S. 59-68];

5) For the production of drilling fluids [Zhang J. et al. Preparation of nitration-oxidation lignosulfonate and the performance in drilling fluid // Petroleum Science and Technology. - 2014 .-- Vol. 32, Iss. 14. - P. 1661-1668];

6) When solving environmental problems of metallurgical production [Pugin K.G. Development of an anti-filter screen for a landfill for metallurgy waste. - Materials of the I-th International scientific-practical. conf. "Modern energy and resource saving technologies. Problems and prospects." - 2009. - Odessa].

7) In the synthesis of a magnetically active compound [Patent 2453500 RF. Publ. 06/20/2012. Bull. No. 17 / Khabarov Yu.G., Babkin I.M., Veshnyakov V.A.].

The objective of the invention is the expansion of the range of nutrient mixtures for plants.

This is achieved by using in the nutrient mixture an organic additive from modified lignosulfonates obtained by nitration or nitrosation.

To assess the possibility of using modified lignosulfonates (LBF) as an organic component of the nutrient mixture, experiments were performed in which the effectiveness of such nutrient mixtures was proved.

To obtain a nutrient mixture, a calculated amount of nutrient compounds was added to a solution of modified LFW with stirring. Modification of technical lignosulfonates by nitration or nitrosation was carried out by treating the lignosulfonates solution with a nitrating or nitrosating reagent, taken in the required amount.

The possibility of using synthesized nutrient mixtures is shown in experiments with wheat germination.

Example 1. Germination of wheat. For this, 10 g of wheat seeds were soaked in water for 1 hour, then treated with 1% potassium permanganate solution for 1 hour and then washed with distilled water. Prepared seeds were placed in a germinator with 2.5 L of water. Initially, the seeds were aerated for 2 days. Then, 1.5 ml of the nutrient mixture synthesized as follows was added. To 100 ml of a 10% solution of LST was added 1 ml of concentrated nitric acid (concentration of 63.6%). The duration of nitration was 60 minutes After nitration, the following nutrients were dissolved in the reaction mixture with stirring (in% of the mass of the initial LFB: FeSO ₄ ⋅ 7H ₂ O - 80; H ₃ BO ₃ - 7.4; ZnSO ₄ ⋅ 7H ₂ O - 14.2; CoCl ₂ ⋅6H ₂ O - 3.9; (NH ₄ ) ₆ Mo ₇ O ₂₄ ⋅H ₂ O - 28.9; MnCl ₂ ⋅4H ₂ O - 11.6; MgSO ₄ ⋅7H ₂ O - 32.6; CuSO ₄ ⋅ 5H ₂ O - 12.6; urea - 100; K ₂ HPO ₄ ⋅ 3H ₂ O - 1.5). At the final stage, the pH of the nutrient mixture was adjusted to 4 ... 6 by adding ammonia water. Germination was carried out for 7 days, controlling the height of the shoots and the length of the roots. The average height of the plants was 16.0 cm, the weight of all plants was 6.6 g (for absolutely dry matter).

Example 2. Germination of wheat under the conditions of example 1, characterized in that as a nutrient mixture used a mixture synthesized as follows. To 100 ml of a 10% solution of LST was added 1 ml of concentrated nitric acid (concentration of 63.6%). The duration of nitration was 60 minutes After nitration, the following nutrients were dissolved in the reaction mixture with stirring (in% of the mass of the initial LFB: FeSO ₄ ⋅ 7H ₂ O - 100; H ₃ BO ₃ - 9.2; ZnSO ₄ ⋅ 7H ₂ O - 17.7; CoCl ₂ ⋅6H ₂ O - 4.9; (NH ₄ ) ₆ Mo ₇ O ₂₄ ⋅H ₂ O - 36.2; MnCl ₂ ⋅4H ₂ O - 14.5; MgSO ₄ ⋅7H ₂ O - 40.7; CuSO ₄ ⋅ 5H ₂ O - 15.8; urea - 100; K ₂ HPO ₄ ⋅ 3H ₂ O - 1.5). At the final stage, the pH of the nutrient mixture was adjusted to 4 ... 6 by adding ammonia water. Germination was carried out for 7 days, controlling the height of the shoots and the length of the roots. The average height of the plants was 15.5 cm, the weight of all plants was 6.8 g (for absolutely dry matter).

Example 3. Germination of wheat under the conditions of example 1, characterized in that as a nutrient mixture used a mixture synthesized under the following conditions. To 100 ml of a 10% solution of LST, 1.5 g of sodium nitrite was added and acidified with a 10% solution of acetic acid to pH 2 ... 3. The duration of nitrosation was 60 minutes After nitrosation was completed, the following nutrients were dissolved in the reaction mixture with stirring: (in% of the mass of the initial LFB: FeSO ₄ ⋅ 7H ₂ O - 80; H ₃ BO ₃ - 7.4; ZnSO ₄ ⋅ 7H ₂ O - 14.2; CoCl ₂ ⋅6H ₂ O - 3.9; (NH ₄ ) ₆ Mo ₇ O ₂₄ ⋅H ₂ O - 28.9; MnCl ₂ ⋅4H ₂ O - 11.6; MgSO ₄ ⋅7H ₂ O - 32.6 ; CuSO ₄ ⋅ 5H ₂ O - 12.6; urea - 100; K ₂ HPO ₄ ⋅ 3H ₂ O - 1.8). At the final stage, the pH of the nutrient mixture was adjusted to 4 ... 6 by adding ammonia water. Germination was carried out for 7 days, controlling the height of the shoots and the length of the roots. The average height of the plants was 14.5 cm, the weight of all plants was 7.1 g (for absolutely dry matter).

Example 4. Germination of wheat in the conditions of example 5, characterized in that as a nutrient mixture used a mixture synthesized under the following conditions. To 100 ml of an 8% solution of LST, 1.3 g of sodium nitrite was added and acidified with a 10% solution of acetic acid to pH 2 ... 3. The duration of nitrosation was 60 minutes After nitrosation was completed, the following nutrients were dissolved in the reaction mixture with stirring: (in% of the mass of the initial LFB: FeSO ₄ ⋅ 7H2O - 100; H ₃ BO ₃ - 9.2; ZnSO ₄ ⋅ 7H ₂ O - 17.7; CoCl ₂ ⋅6H ₂ O - 4.9; (NH ₄ ) ₆ Mo ₇ O ₂₄ ⋅H ₂ O - 36.2; MnCl ₂ ⋅4H ₂ O - 14.5; MgSO ₄ ⋅7H ₂ O - 40.7; CuSO ₄ ⋅5H ₂ O - 15.8; urea - 100; K ₂ HPO ₄ ⋅3H ₂ O - 1.9). At the final stage, the pH of the nutrient mixture was adjusted to 4 ... 6 by adding ammonia water. Germination was carried out for 7 days, controlling the height of the shoots and the length of the roots. The average height of the plants was 15.0 cm, the weight of all plants was 6.8 g (for absolutely dry matter).

Example 5. Germination of wheat under the conditions of example 5, characterized in that 0.5 g of lignohumate was used as a nutrient mixture. Germination was carried out for 7 days, controlling the height of the shoots and the length of the roots. The average height of the plants was 16.5 cm, the weight of all plants was 7.1 g (for absolutely dry matter).

The results showed that nutrient mixtures using lignin derivatives modified by nitration or nitrosation as an organic additive, technical lignosulfonates have high efficiency, close to the efficiency of the use of lignohumate (example 5).

Claims (1)

The use of lignosulfonates modified by nitration using concentrated nitric acid, or nitrosation using sodium nitrite and acetic acid solution, as an organic component of a plant nutrient mixture.