RU2025956C1 - Method for growing plants under controlled conditions - Google Patents

Abstract

FIELD: agriculture and biotechnology. SUBSTANCE: method involves growing plants by sowing the seeds on vertically- arranged inert backing, for example from glass cloth with a developed capillary system. Plants are watered and top-dressed with nutrient solution supplied from top down with 0.1-5.0% concentration of nitrogen, phosphorus and potassium. At the root system formation stage the relation of N:P:P is (4-5):(1-4):(1-2), respectively; at the biomass formation stage the N:P:P relation is equal to 2:(4-5): (4-3) while at the culture ripening stage the P:P ratio is maintained within 5: (3-5), respectively, at an acidity modulus pH 5-9. Additionally, the nutrient solution is treated with microelements and once a week the plants are watered only with distilled magnetoelectric water. EFFECT: higher efficiency. 7 cl

Description

 The invention relates to methods for growing plants, mainly fruit and vegetable, berry, cereal, medicinal and other crops, and may find application in the industrial production of agricultural products, including in areas of high environmental pollution, as well as in space, etc. isolated systems.

 A known method of growing crops, such as cabbage, including sowing on open pre-fertilized soil of planting material, caring for plants at all stages of their development by watering and fertilizing fertilizers, regulating the physiological properties of plants by hilling root crops, removing mustaches from strawberries, etc. . and harvesting (G. E. Isaev and other Industrial vegetable growing. M., Rosselkhozizdat, 1987).

 The known method is purely seasonal in nature (as a rule, one crop per year is harvested in mid-latitude conditions), it is carried out in the natural climatic conditions of the corresponding region under the influence of environmental factors, it is characterized by relatively small volumes of production per unit of agricultural products cultivated (for example, harvesting strawberries is about 3 kg from the bush, tomatoes - 15-20 kg from the bush, cucumbers - from 1 to 2 kg from the bush). The cultivation of crops on open soil under the influence of environmental factors is inevitably associated with the need to organize control of weeds and plant pests using pesticides and herbicides, which leads to pollution of products and the environment. In addition, the large-scale production of agricultural products by a known method requires the use of expensive equipment and agricultural implements to maintain them in working condition and to provide fuel and lubricants, which reduces labor productivity and causes an increase in the complexity and cost of crop production.

 Closest to the proposed solution in terms of technical nature and the achieved effect is a method of growing crops, such as tomatoes and cucumbers, including sowing on an artificially created soil layer of planting material, caring for plants at all stages of their development under conditions of controlled effects on their physiological properties in greenhouses and harvesting.

The main disadvantages of this solution include:
- the need to create an artificial soil layer in greenhouses using the most fertile soils with a high humus content, which causes irreparable damage to natural agricultural land and leads to an increase in the complexity and cost of production;
- discontinuity of the production cycle associated with the need for annual replacement of the soil layer in greenhouses, which reduces the volume of removal of products from a unit of production space and leads to an additional increase in the complexity and cost of agricultural production;
- the need to use herbicides in connection with the intensive development of plant pests in a greenhouse, which leads to pollution of products and the environment;
- the practical impracticability of creating in the conditions of the greenhouse the most favorable conditions for a controlled effect on the physiological properties of plants by ensuring this regulation of the microclimate, the duration of lighting, and the regimes of plant nutrition at all stages of their development;
- and, as a consequence of the shortcomings listed above, low labor productivity and yields that do not meet the increasing needs of mankind for crop production (for example, picking strawberries from one bush is 4-6 kg, tomatoes 20-40 kg) and requirements for its quality.

 The present invention is aimed at solving the problem of a sharp increase in labor productivity and productivity of farmed products per unit of occupied production area, as well as ensuring its high consumer qualities (environmental friendliness).

 The problem is solved in that in a method of growing plants, including sowing planting material, caring for plants at all stages of their development by watering and fertilizing with fertilizer under conditions of controlled influence on their physiological properties and harvesting, sowing is performed on an inert plane located in the vertical plane a substrate, one side of which is periodically illuminated, the other is constantly kept darkened, and watering and top dressing is carried out by periodic feeding from top to bottom on the darkened side under tablespoons of a 0.1-10% aqueous nutrient solution based on salts of nitrogen (N), phosphorus (P) and potassium (K) with an acidity module pH 5-9, the ratio of components of which change as plants develop, and all operations, starting from sowing to harvesting, perform in a closed room isolated from the influence of environmental factors.

 The above distinguishing features from the prototype signs are sufficient for the implementation of the invention in all cases to which the requested amount of legal protection.

 The set of essential features of the invention allows for fine-tuning in a closed environment isolated from the influence of environmental factors and an almost sterile room according to given lighting, microclimate and feeding conditions, and thereby create the most favorable conditions for the development of plants and their cultivation throughout the year, and therefore significantly increase their productivity and consumer qualities while increasing labor productivity, reducing labor-intensive and and the cost of production.

 In particular cases of using the invention at the stage of formation of the plant root system, the ratio of the components of the N: P: K solution is maintained in the range from 4: 1: 1 to 5: 4: 2. This allows you to significantly strengthen and develop the root system of plants.

 At the stage of biomass formation, the ratio of the components of the N: P: K solution is maintained in the range from 0: 4: 4 to 2: 5: 3. This stimulates the development of biomass (bush, stem, etc.) and the formation of large fruits.

 At the stage of maturation of the plant and / or their fruits, the ratio of the components of the N: P: K solution is maintained in the range from 0: 5: 3 to 0: 5: 5. This allows you to provide the maximum set of vitamins for the fruits (and 5-6 times more than in the greenhouse).

 According to the invention, a vacuum can be created in the room.

 This makes it possible to grow alpine plants, for example, ginseng.

 In some cases, the implementation of the invention, the darkened side of the substrate is made of a material with a developed capillary system, for example, fiberglass.

 This allows you to significantly improve the conditions for supplying a nutrient solution to the root system of plants.

According to the invention, at all stages of plant development periodically additionally stimulate their growth by ionizing the air and / or changing the concentration of CO ₂ from 0.3 to 5%.

 Due to this, the vegetation period of plant development is reduced, and therefore, the sowing cycle and productivity increase per unit of production area.

 In addition, plants are exposed to an adjustable electric field with a voltage of 5-10 thousand volts.

 This allows you to develop the capillary system of plants and thereby increase the flow of nutrients and, therefore, increase productivity and product quality.

 According to the invention, every seventh day, plants are planted on a starvation diet by irrigating their root system on that day with distilled magnetically treated water. This creates the prerequisites for better absorption of fertilizer by plants in the following days.

 At the stage of biomass development, trace elements are additionally introduced into the nutrient solution.

 Due to this, the size, quantity and quality of the fruits increase.

 The possibility of carrying out the invention is confirmed by the following examples.

EXAMPLE 1. In a closed room isolated from the influence of environmental factors and in a practically sterile room (entrance to the room through special vestibules - sanitary inspection rooms, air supply through filters), vertically located inert substrates are mounted on supporting structures, one side of which is periodically illuminated and the other is constantly kept darkened. In its most general form, the substrate consists of two parallel panels of a polymer film, between which there is a reinforcing mesh, for example, a Rabitsa mesh. The film located on the side of the light source must be opaque or reflective. On the above-described vertical substrate, strawberry seedlings of repair varieties are planted with a planting density of 99 bushes per 1 m ^{2 of} cultivated area, fixing them in coaxially located holes in the films forming the substrate. After planting the seedlings on their root system, located on the darkened side of the substrate from top to bottom, a 0.1% aqueous nutrient solution based on the salts of nitrogen (N), phosphorus (P) and potassium (K) is periodically fed, maintaining the pH of the solution equal to 6 , 2 and the ratio of the components N: P: K at the stage of formation of the root system is 5: 2: 1, at the stage of formation of biomass and fruits - 0: 4: 4 and at the stage of fruit ripening 0: 4: 3. At the stage of fruit formation, microelements (zinc, manganese) are additionally introduced into the solution. At the same time, throughout the entire process of growing in the room, the lighting and microclimate and top dressing modes regulated by a given program are maintained. At the same time, according to a predetermined program, air ionization and stimulation of the development of the capillary system of plants are performed by exposure to them with a regulated electric field of 5 thousand volts. Two months after sowing seedlings begin harvesting. At the same time, bushes of the Cardinal repairing cultivar bear fruit without interruption for 3 years with an annual collection of 8 kg from one bush.

 Periodically, once a week, only irrigation of the strawberry root system with distilled water is carried out.

 The technical result obtained when growing strawberries of the claimed method consists in a 10-fold increase in productivity, which is achieved on average 8 kg of strawberries from one bush per year against the average yield of the known substrate method of 0.7 kg of strawberries from one bush per year (see CSA data in agriculture for 1992).

At the same time, the cultivation of strawberries by the claimed method in comparison with the known one allows:
- receive an environmentally friendly product containing 5-6 times more vitamins, and evenly throughout the year;
- reduce the cost of strawberries by eliminating the labor-intensive and energy-intensive operations used in the technology of growing strawberries in a known substrate method.

PRI me R 2. As in example 1 on a vertically arranged substrate, the darkened side of which is made of fiberglass, sow seeds of Bulgarian pepper, gluing them to fiberglass, previously impregnated with a nutrient solution. As the plant develops, the root system is distributed over the fiberglass, and the sprouts are drawn to light. When stems are formed, they are tied to vertically arranged trellises. During the formation of the plant, the concentration of the solution is changed from 3 to 5%, pH 5.9-6.7, the ratio of the components N: P: K at the stage of formation of the root system is maintained equal to 4: 3: 1, at the stage of formation of the stem 2: 4: 3, at the stage of fruit ripening 0: 3: 5. The supply of the solution, the lighting mode and the indoor microclimate are controlled according to a predetermined program. In the process of growing pepper periodically produce additional stimulation of plant growth by changing the concentration of CO ₂ in the room to 5%.

 The technical result obtained during the cultivation of the claimed method of Bulgarian pepper, as well as when growing strawberries, consists of advantages in yield, environmental cleanliness and cost of the product. In this case, the yield increases from 0.5-0.6 kg from the bush in the known method to 4.5-5 kg from the bush for the same period in the proposed method of cultivation.

Claims (7)

 1. METHOD OF PLANT GROWING UNDER CONTROLLED CONDITIONS, including sowing, caring for plants at all stages of their development by watering and fertilizing fertilizers under conditions of controlled influence on their physiological processes and harvesting, characterized in that the sowing is performed on an inert plane located in a vertical plane a substrate made of a material with a developed capillary system, one side of which is illuminated and the other is constantly kept dark, watering and top-dressing is carried out by periodically feeding of the solution from top to bottom on the darkened side of the substrate in a concentration of 0.1 - 5.0% of salts of nitrogen, phosphorus and potassium, while at the stage of formation of the root system, the ratio N: P: K is maintained in the range (4 - 5): (1 - 4): (1 - 2), respectively, at the stage of biomass formation, the ratio N: P: K - 2: (4 - 5): (4 - 3) and at the stage of maturation of the culture, the ratio P: K is maintained within 5: (3 - 5) respectively, with the acidity modulus of the nutrient solution pH 5 - 9.  2. The method according to claim 1, characterized in that the darkened side of the substrate is made of fiberglass. 3. The method according to p. 1, characterized in that periodically at all stages of the development of the plants additionally stimulate growth by ionizing the air and / or changing the concentration of CO ₂ in the range of 0.3 - 5.0%.  4. The method according to claim 1, characterized in that in the process of growing plants in a cultivation building create a vacuum.  5. The method according to claim 1, characterized in that the plants are exposed to an adjustable electric field with a voltage of 5000 V.  6. The method according to claim 1, characterized in that one day a week the plants are watered only with distilled magnetoelectric water.  7. The method according to claim 1, characterized in that micronutrients are additionally introduced into the nutrient solution.