RU2058717C1 - Method for increasing yield and reducing growing period of plants - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves subjecting soil adjacent to plant root system to the action of dc electric field, with electrolysis process intensity being maintained directly proportional to photosyntesis intensity. It allows assimilation of nutrient ions by plant to be intensively used. EFFECT: increased efficiency and simplified method. 3 cl, 1 dwg

Description

 The invention relates to agriculture and can be used to increase productivity by electrical stimulation of plant growth.

There is a method of increasing productivity and reducing the growing season by passing an electric current through the root zone of plants [1]
The closest in technical essence and the achieved effect is a known method of increasing productivity and reducing the time of plant vegetation by acting on the root zone of plants by passing current from two electrodes buried in the soil [2]
However, the known method is not effective enough, because it provides a low value of currents and voltages acting on the root zone of plants.

 The aim of the invention is to increase the efficiency of the method by ensuring the flow of electrolysis contained in the soil of mineral salts in the root zone of plants.

 This is due to the fact that the electrodes are buried in the soil to the root zone of the plants, connected to the solar energy photoelectric transducer and the electrolysis of the mineral salts contained in the soil is carried out between the electrodes, the flow rate of which is directly proportional to the photosynthesis rate, and the effect on the soil in the root zone of plants with direct electric current can be combined with the introduction of fertilizers into the soil, and between the charges can maintain a potential difference equal to 3-15 per linear meter of soil.

 The invention is illustrated in the drawing, which shows a diagram of an agroelectrostimulator for implementing a method of increasing productivity and reducing the duration of plant vegetation.

 Two copper electrodes 4 are connected to the root zone of the sprouted plant 1 at a distance of 2-3 cm from the stem by wires 2 with a direct current source 3. The direct current source is made in the form of a solar photovoltaic converter, which is a compact, silicon solar cell that converts the stream solar radiation into direct current.

 Under the influence of electric current, electrolysis of mineral salts occurs with the release of metal cations, which, moving towards the anode, are absorbed by the root system, the same process occurs with copper cations released from the cathode.

 The use of a photoelectric converter for this purpose allows one to obtain the greatest efficiency, since the current density during electrolysis is a function of solar activity (the more efficient photosynthesis, the more efficient plant nutrition).

 An example is the decomposition of potassium nitrate that occurs in the soil using the invention.

К₂ + 1/2 O₂ + N₂O₅
Таким образом, в результате электролиза, происходящего в почве в корневой зоне растений, конечные продукты этой реакции содержат только необходимые для питания растения вещества: катионы калия для усиления синтеза сахаров и белковых веществ, кислород для дыхания клеток корневой зоны и окислы азота, анионы для формирования основных компонентов растения белка и хлорофилла.The electrolysis equation:
KNO ₃

K ₂ + 1/2 O ₂ + N ₂ O ₅
Thus, as a result of electrolysis in soil in the root zone of plants, the final products of this reaction contain only the substances necessary for plant nutrition: potassium cations to enhance the synthesis of sugars and protein substances, oxygen for respiration of root zone cells and nitrogen oxides, anions for the formation The main components of the plant are protein and chlorophyll.

 Similarly, the electrolysis process is carried out in relation to other mineral salts that are contained in the soil or applied in the form of fertilizers to the soil.

 Example. Patisson seeds were planted in a square-nesting manner at a distance of 0.5 m from each other. After seed germination in one plant located in the center of the sowing, two electrodes 4 in the form of 1 x 3 cm copper plates (anode and cathode) were installed near the root zone 2-3 cm from the stem and connected to a solar photovoltaic battery 3 located on a bar in the vicinity of this plant. One month after planting, control plants had 3 small-sized leaves (12 x 20), and the experimental plant had 6 leaves (22 x 40 cm).

 7 weeks after planting, control plants formed inflorescences, and the experimental plant already had two fruits with a diameter of 12 cm, which indicates the high efficiency of the method and device.

 During operation, the voltage at the battery terminals was 0.3-0.8 V, and the current strength was 5-15 mA.

 In the industrial application of the method, it is possible to use a solar panel centralized for the entire sowing, which maintains a potential of 5-15 V per one meter of sowing.

Claims (3)

 1. METHOD FOR INCREASING YIELD AND REDUCING PLAN VEGETATION TIMES, including applying direct electric current to the soil in the root zone of plants, characterized in that the electrolysis of mineral salts contained in the soil is carried out in the root zone, the flow rate of which is directly proportional to the photosynthesis rate.  2. The method according to claim 1, characterized in that the impact on the soil in the root zone of plants with a constant electric current is combined with the introduction of fertilizers into the soil.  3. The method according to p. 1, characterized in that in the process of transmitting current, a potential difference of 3 15 V per linear meter of soil is maintained.

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