RU2614778C1 - Aerohydroponic method of growing green fodder - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: moistened seed and vegetative mass with the active catholyte continuously for 7-8 days bubbling air solution. For the purpose of preservation the properties of cathode solution administered stabilizer is an amino acid from the group of polar uncharged amino acids include glycine in a concentration of not less than 0.01 wt %.

EFFECT: increased biomass yield.

2 cl, 2 tbl

Description

The invention relates to agriculture and can be used with the aerohydroponic method of growing green feed.

Known methods include the treatment of seed and vegetative mass with electrochemically activated (ECA) water - catholyte, which is formed in the cathode zone of a diaphragm electrolyzer, which (catholyte) has a biostimulating effect [1, 2, 3].

So, when treating the seed with catholyte, the energy of seed germination on the 3rd day increased by 2.3-3.4 times, the increase in the length of seedlings and root lengths on the 7th day compared to the control averaged 8.0-14, 3% The mass of seeds after daily exposure to catholyte due to the active permeability of the covers increased by 64.4%, which exceeds the control by 28%. Damage to diseases in the control of 72.1%, ECA with water - zero [4].

However, these methods of treating seeds and vegetative mass do not fully realize the biological potential of the seed, since they do not provide for the withdrawal of seeds from deep dormancy.

Sleeping buds and seeds can be removed from this state by a known method of treating them with gibberellin [5]. The most effective way to rest is to combine gibberellin with thiourea.

So, for example, immersion of freshly harvested potato tubers for 30 min in a solution containing 20 g / l of thiourea and 1 mg / l of gibberellin leads to germination after 4-5 days, and shoots appear after 25-30 days [5].

A known method of presowing treatment of seeds, including the use in the environment of a soaking stabilized solution of biologically active nanoparticles of Fe [4, 13, 14].

After analyzing and summarizing the previously obtained data on the practical use of Fe and gibberellin nanoparticles, we proposed a variant of their combined use in a medium of a soaking cathode solution (Table 1).

The influence of the aerohydroponic method of growing green fodder was assessed by us on a modernized model of the cultivator “Health KLAD” manufactured by the company “Steksel” [6].

For disinfecting the surface of the equipment of the germinator, in contact with the seeds and vegetative mass, was treated with a 0.1% solution of potassium permanganate.

When moistening the seeds and vegetative mass, stabilized catholyte was used.

Air oxygen, passed through electrochemically activated (cathode) water with a stabilizer, easily attaches one or two free electrons to itself, ionizes and turns into an oxygen ion of negative polarity. In this case, air is cleaned of dust, smoke and air microflora, which have an adverse effect on plant cells [10].

When oxygen is converted to an activated state, the action of catholyte as a biostimulant is to improve photosynthesis due to its electron-donating ability to supply electrons to the plant, while stimulating tissue respiration, physiological regeneration, and enzyme activity [7, 8, 9].

Numerous studies have shown that aeroponic activation of seeds and vegetative mass increases the productivity and quality of green fodder [8, 9, 10].

However, it should be noted that the electrochemically activated aqueous solution of catholyte quickly loses its properties in an open container, especially when it is actively sparged with air after 2-3 hours, and the use of a stabilizer [11] ensures the long-term preservation of the useful properties of the cathode solution throughout the germination period, in terms of pH at the level of 89-92%, Eh - 71%.

In the experiment, the moisturizing capacity of the germinator was filled with electrochemically activated cathode water (pH 8-9, Eh = -350 ... -400 mV) with a stabilizer, which is an amino acid from the group of polar (hydrophilic) uncharged amino acids, including glycine in a concentration of at least 0.01 wt . % [eleven].

During the aerohydroponic cultivation of green fodder, the advantage is recognized for fodder crop - barley [12].

Growing mode: humidity of the root zone at the level of 80-90%, daily water flow from the humidification tank 300-350 ml / day.

The results of the experiment are presented in the table. For reference use, generalized values of the indicators of the chemical composition and nutritional value of green fodder from barley according to domestic and foreign data of recent years are given [12].

Thus, pre-sowing preparation of seed material to stimulate the germination and removal of seeds from a dormant state with subsequent increase in root growth and vegetative mass, soaking in a solution of catholyte with Fe nanoparticles and gibberellin in a concentration of not less than 0.01 wt. % each for 10-15 minutes allows you to increase the germination of seeds by 9-15% compared with the control and get a larger amount of more nutritious feed per unit area. The combination with the treatment by moistening the seeds and vegetative greens of barley with catholyte with a pH of 8-9 and Eh = -350 ... -400 mV while maintaining the properties of the solution by introducing a stabilizer - an amino acid including glycine in a concentration of at least 0.01 wt. %, increased the yield of green fodder by 2% in dry matter, while in terms of protein content the superiority was 10.2%, in carotene - 5.3% and in nutrition - 33.8% (Table 2).

The expected consequence is not only an increase in the biomass yield, but also its enrichment with bioavailable iron by 38%, which is in demand in the correction of animal feeding diets.

The proposed aerohydroponic method of growing green fodder allows you to effectively use the potential of the plant in a natural way.

List of references

1. Butko M.P., Frolov B.C., Titans B.C. The use of electrochemically activated solutions of sodium chloride for the rehabilitation of agricultural facilities. - Vetkorm, No. 1, 2007. - S. 25-27.

2. Jurabov M. The use of electroactivated water in agriculture. - Mechanization and electrification of agriculture, No. 11, 1986. - S. 51-53.

3. Kalunyants K.A., Kochetkova A.A., Sushenkova O.A., Sadova A.I., Filatova T.V. Intensification of technological processes of grain processing by electrochemical influence // Meeting on electrochemical activation of media. Abstracts of reports. - All-Union Chemical Society. DI. Mendeleev, 1987 .-- p. 83.

4. Patent for invention RU No. 2429592 A method of growing hydroponic feed / S.A. Miroshnikov, T.D. Deryabin and others: published on 09/27/2010.

5. Hamburg K.Z. Kulaeva O.N., Muromtsev G.S., Prusakova L.D., Chkanikov D.I. Plant Growth Regulators. - M .: Kolos, 1979.- S. 63-63, S. 202-205.

6. Patent for utility model of the Russian Federation No. 152402. Installation for growing hydroponic green feed / A.V. Kharlamov, N.N. Dokina et al .: published on 05.27.2015.

7. Ivanko I.P. The effect of the Earth's electric field on plants. The mechanization and electrification of agriculture, No. 1, 1977.

8. Patent for invention RU No. 2349071. The method of processing winter wheat / E.A. Alexandrova, R.M. Gerchaulova et al .: published on March 20, 2009.

9. Patent for invention RU No. 2349072. The method of foliar feeding of winter wheat / E.A. Alexandrova, R.M. Gerchaulova et al .: published on March 20, 2009.

10. Chizhevsky A.L. Aeroionification in the national economy. - M .: Gosplanizdat, 1960 .-- 758.

11. Patent for invention RU No. 2234945 A stabilizer of an aqueous solution and water-containing raw materials with spontaneously changing redox properties / V.M. Janitors: published on August 27, 2004.

12. Kruglyakov Yu.A. Equipment for the continuous cultivation of green feed hydroponically. - M .: Agropromizdat, 1991 .-- 79.

13. Deryabina T.D., Sizova E.A. Features of the growth and development of Triticum aestivum upon cultivation in a medium containing ions, nano- and microparticles of iron. - Prospects of science, No. 11 (62), 2014. - S. 18-23.

14. Application for the alleged invention No. 20155150502 Method-growing ZGK using nanomaterials / S.A. Miroshnikov, E.A. Sizova et al., Registered Oct. 22. 2015.

Table 1 Experience outline The main agrotechnical factors of the process of growing GZK Option Preparation of seed material and its preliminary soaking 1. Barley seeds of the variety "Donetsk 8" of the first class GOST 10469-76.
2. For complete disinfection of the surface of the equipment of the germinator process in a 0.1% solution of potassium permanganate.
3. The seeding rate of 3.5 kg / m ² .
4. Illumination 400 ... 500 lux.
5. Duration of lighting 23 hours / day.
6. The duration of cultivation is 8 days.
7. The nutrient solution was not used.
8. Aerohydroponic cultivation of GZK on the installation of an upgraded model of the germinator "Health treasure" company "Steksel".
9. To moisten and aerate seeds and vegetative mass, an ECA cathode aqueous solution with pH 7-8 and Eh = -350 ... -400 mV, stabilized with glycine at a concentration of at least 0.01 wt.%, Water temperature at least 18-20 is used ° C The control Processing - soaking seeds in an aqueous solution for 10-15 minutes Experience Processing - soaking seeds in a 0.01% solution of potassium permanganate to disinfect and destroy bacteria and putrefactive fungi.
Presowing treatment - soaking seeds in ECA cathode solution with pH 7-8 and Eh = -350 ... -400 mV + Fe nanoparticles and gibberellin at a concentration of 0.01 wt.% Each for 10-15 minutes

table 2 The chemical composition and nutritional value of green barley grain feed No.
p / p Option Indicator Dry
substance,% Fat% Ash% Protein,% Cellulose, % Calcium,
% Phosphorus,% Feed. single kg Energetich.
equivalent,
MJ / kg Iron,
mg / kg Carotene,
mg / kg one The control 8.8 3,7 5.3 22.8 18.8 0.1 0.6 0.72 10.0 23.9 9.6 2 Experience 10.8 4.0 6.5 33.0 19.0 0.15 0.70 1,0 12.0 33.0 10.0 3 Generalized
data
recent years 8 ... 10 3 ... 4 5 ... 7 17 ... 25 0,1 ... 0,2 0,1 ... 0,2 0.6 ... 0.8 0.7 ... 0.8 12 ... 13 26.0 4 ... 10

Claims (2)

1. Aerohydroponic method of growing green feed, including processing and moistening the seed and vegetative mass with catholyte with active continuous sparging of the solution for 7-8 days with air, characterized in that in order to preserve the properties of the cathode solution, a stabilizer is introduced, which is an amino acid from the group of polar uncharged amino acids, including glycine in a concentration of not less than 0.01 wt. % 2. The aerohydroponic method according to claim 1, characterized in that when preparing the seed material for effective pre-sowing stimulation of germination and removal of seeds from a dormant state with subsequent increase in root growth and vegetative mass, they are soaked in a solution of catholyte with Fe nanoparticles and gibberellin in a concentration of less than 0.01 wt. % each for 10-15 minutes, which allows to obtain a larger volume of nutritious feed.