RU2109446C1 - Method for producing natural plant growth regulator - Google Patents

Abstract

FIELD: agriculture; production of readily available, vegetable-derived agents capable of influencing physiological processes in plants. SUBSTANCE: organic vegetable wastes resulting from production activities of vegetable- and/or flower-growing farms (broken stalks, leaves, twigs, flowers, roots) are prepared and subjected to aqueous thermal extraction to produce extract that is enriched with Fe, Cu, Zn, Mn, F microelements and vitamins. Extraction process is carried out at 60-100 C for 8-16 h to turn out phytoregulator agent in two forms: liquid and paste-like ones. The latter form is deposited onto carrier (sugar can pulp) and packaged into water-permeable material. Phytoregulator is used for growing maize, soya, vegetable and floral-decorative crops. EFFECT: reduced cultivation period and increased production yield in 1.5-2 times with simultaneous improvement of product quality. 7 cl

Description

 The invention relates to the field of agriculture, namely to the creation of substances that affect the growth of plants based on low-waste technologies.

 A known method of producing crezacin, plant phytoregulator (ed. St. USSR N 515742, class C 07 C 91/26, 1990), based on the interaction of chemical components.

 This method requires the use of chemical organic substances, which prevents the production of environmentally friendly product.

 A known method of producing an extract that affects plant growth, including the extraction of berry and vegetable crops with an aqueous-acetone mixture, followed by distillation of acetone, adjusting the pH of the medium, followed by separation of the aqueous phase from the organic one (US Pat. No. 4,309,207, class A 01 No. 65/00, 1928).

 The known method is time-consuming, requires the use of chemicals and, in addition, the extract obtained does not sufficiently stimulate plant growth.

 Also known is a method of producing a plant growth stimulator (ed. St. USSR N 1759367, class A 01 N 65/00, 1990), including extraction of a physiologically active substance with water from fallen oak leaves at elevated temperatures, while oak leaves are treated with chemical drugs.

 This method uses one type of plant material, which requires pre-treatment, and hence the additional cost of drugs and energy. In addition, the resulting product does not have a multifunctional effect.

 The claimed invention is aimed at creating a method for producing an environmentally friendly natural plant growth regulator at the lowest cost and using low-waste technology.

 When growing vegetables and flowers, especially in industrial enterprises (greenhouses, open heated soils or open soils), thousands of tons of plant waste are produced, which are environmental pollutants.

 The destruction of organic waste requires additional land (landfill) or energy costs (incineration), which leads to certain capital investments.

 However, organic plant waste can be a raw material for the production of biologically active products and, as a plant growth regulator, return to the production processes of growing vegetable, green fodder, fruit and flower and decorative crops.

 In this case, there is a need to develop a method for the recycling of organic plant waste in order to obtain biologically active, environmentally friendly substances.

 The method is as follows. In the industrial cultivation of crops of the family: nightshade, cruciferous, clear-headed, umbrella, haze, ginger and flower crops of the family: lily, orchid, arrowroot, amarylis, cloves, organic waste is formed. These are plant tops, stems, roots, flowers, leaves, their number is hundreds of tons, especially after the end of the growing season.

The resulting waste is crushed and subjected to water extraction in the ratio of raw materials and water 1:10 for 8-16 hours, at an elevated temperature of 60-100 ^o C. Microelements and vitamins are introduced into the technological process in microdoses that do not exceed their content in plants, therefore, the amount introduced microelements can be in the range of 0.01 - 1.6 mg per liter of each, and vitamins 0.01 - 0.9 mg per liter of each.

 The composition of trace elements and vitamins can be selected depending on the type of plant and the effect that you want to get. So, manganese, cobalt, fluorine, iron, copper, zinc can be used as trace elements, and vitamins of groups B, E, PP can be used as vitamins.

 Trace elements and vitamins can be introduced at the end of the extraction, and trace elements can be introduced first, and then vitamins. This ensures the preservation of their greater activity in the final product.

 The natural plant growth regulator obtained by this method is a high polymer compound containing organic acids, phenols, sugars, hydroxyl groups, aromatic compounds, trace elements and vitamins. Such a coordination complex is a biologically active regulator.

 By changing the ratio of plant waste, for example, when using waste from flower and vegetable production, you can get a growth regulator with a multifunctional effect.

 The choice of the extraction mode allows one to obtain a plant growth regulator of various humidity and concentration of the active principle. By adjusting the temperature and time conditions and processing organic plant waste in different qualitative and quantitative proportions, the product is obtained in two forms - in liquid or paste form.

 Obtained by the proposed method, the natural plant growth regulator allows you to maximize the potential productivity of plants. Such a growth regulator in addition to a direct effect on plant growth has a multifunctional effect, causing a wide range of responses, while affecting the vital processes of plants, does not have toxic effects in the concentrations used and is not a source of nutrition.

 During seed treatment and further processing of plants by spraying, the growth regulator stimulates the vegetative growth of plants, stimulates fruit set, increases the number of early flowers, and increases the adaptogenic properties of plants. The effectiveness of the growth regulator also depends on the type of plant, its dose and processing method.

 In addition, the use of the growth regulator obtained by this method helps to increase the assimilative surface of plants due to the secondary branching of stems and increase the area of leaves.

 The growth regulator can be packaged either in a container, if it is used in liquid form, or in bags of semipermeable material with a filler, if it is used in paste form. Sugarcane pulp can be used as a filler.

 Sugarcane pulp is a fibrous material that can hold pasty substances on its structure without entering into any chemical reactions. Semi-permeable bag provides prolonged release of the natural growth regulator exclusively in the aquatic environment, for example, when growing rice or with abundant watering of plants, next to the root system is a bag.

Example 1. Organic plant waste: leaves, stems, roots, flowers of crops such as zucchini, cucumbers, lilies, orchids, sweet peppers are crushed and subjected to water heat treatment for 16 hours at a temperature of 60 ^o C, while introducing into the process trace elements, mg / l: zinc 0.01; fluorine 0.01; Manganese 1.6; iron 1.6; copper 0.5.

 The resulting natural plant growth regulator is a dark brown liquid with a pleasant specific odor. The resulting product at a dose of 2 ml / l of water is used to treat seedlings of a corn culture at the beginning of the growing season, the presence of two leaves. The plants are treated 3-4 times with an interval of 5 days using the method of watering and spraying. With the use of a growth regulator, a plant grows and develops faster, the number of ears of corn increases with a simultaneous increase in the number of grains.

 The productivity of a corn crop is doubled, while the growing time is reduced.

Example 2. Organic vegetable waste from vegetable farms: tops, roots of crops such as eggplant, tomatoes, bell peppers, are prepared, crushed and subjected to water heat treatment for 12 hours at 100 ^o C, while micronutrients are introduced into the technological process, mg / l: manganese 0.01; copper 0.05; fluorine 0.9; cobalt 1.6 and B vitamins: B ₂ 0.01; B ₆ 0.9; PP 0.01. The resulting extract was evaporated to a pasty state. The obtained growth regulator in paste form is used in a dose of 100 mg / l of water, for example, when growing soybean culture. Processing plants is carried out 4 to 5 times at the beginning of the growing season, starting with 2 to 3 leaves. Use the method of watering and spraying with an interval between treatments of 5 days. The plant growth regulator used accelerates plant development. Plants bloom 10-15 days earlier than in control variants, due to which the growing season is reduced. The crop productivity doubles with a simultaneous increase in seed size and number of pods.

Example 3. Organic plant waste from flower farms: leaves, root stems, flowers of crops such as cloves, lilies, orchids, chrysanthemums, are crushed and subjected to water heat treatment at a temperature of 100 ^o C for 8 hours, microelements are introduced into the technological process : zinc 1.5; copper 0.01; iron 0.9 and vitamins B ₁₂ 0.5; E 0.9; B ₂ 0.9, after which it is evaporated and the resulting product is placed on a carrier, which is used as sugarcane pulp, after which it is packaged in a semipermeable material in the form of a square or triangular bag. Depending on the dose of the growth regulator placed on the carrier and packaged in a permeable material, the bag is immersed in water and the seeds of the plant, seedlings, for example, vegetable crops, are treated with the resulting solution with the active substance. Tomato seedlings are sprayed and watered culture seedlings 3-4 times at the beginning of the growing season, starting with two true leaves with an interval of 5 days between treatments. Using a natural growth regulator reduces the time of growing seedlings by half, which allows you to do two cycles of sowing, increases the productivity of the crop by 1.5 - 2 times.

Example 4. Organic vegetable waste from vegetable and flower farms analogously to example 1 is prepared, crushed and subjected to heat treatment for 16 hours at a temperature of 80 ^o C. Introduce trace elements, mg / l: iron 1.6; 1.5 manganese; cobalt 0.5 and vitamins: B ₆ 0.5; E 0.5; PP 0.9. The resulting product is evaporated to a paste-like state, placed on a carrier and packaged, then a packaged plant growth regulator is placed near the root of the plant and periodically watered.

 Regular watering of the plant contributes to the gradual extrusion of the active substance. Such use of the growth regulator does not require additional costs, and the prolonged property of the growth regulator provides a constant concentration.

 The use of the obtained natural growth regulator in the cultivation of flower and ornamental crops ensures the compactness of the plant, homogeneous flowering, a large number of buds, which is important commercially when selling products.

 The amount of growth regulator placed on the carrier will depend on the purpose of the treatment, for example, when growing rice and growing sugarcane, these doses will differ.

 The invention can be used to grow crops such as, for example, soybeans, corn, rice, sugarcane, vegetables, green fodder, flowers and other crops.

 The proposed method for producing an environmentally friendly natural plant growth regulator solves a number of problems, returns organic plant waste to the production processes of growing fodder green, vegetable and flower and decorative crops. It accelerates development, shortens growing time, increases the reproduction rate, enhances adaptogenic properties in plants, increases productivity by 1.5 - 2 times while maintaining environmental cleanliness.

 The resulting natural plant growth regulator is environmentally friendly and harmless to humans and animals.

 The technological process of obtaining a plant growth regulator is simple and does not require large capital investments, since waste materials are used (plant waste and the end of the growing season), gentle thermal water extraction, and the introduction of microelements and vitamins into the technological process in different quantitative ratios allows you to get a growth regulator with the target destination.

Claims (7)

1. A method of obtaining a natural plant growth regulator, including the extraction of physiologically active substances with water from plant materials at elevated temperatures, characterized in that vegetable and flower production wastes are used as plant materials and the extraction is carried out at 60-100 ^° C for 8-16 h with the subsequent introduction of microelements into the extract in an amount of 0.01 - 1.6 mg / l and vitamins in an amount of 0.01 - 0.9 mg / l.  2. The method according to p. 1, characterized in that as a raw material use a mixture of waste vegetable and flower production.  3. The method according to p. 1, characterized in that the quality of raw materials used waste flower production.  4. The method according to p. 1, characterized in that the raw materials used waste vegetable production.  5. The method according to claim 1, characterized in that manganese, cobalt, fluorine, iron, copper, zinc are used as trace elements.  6. The method according to claim 1, characterized in that the vitamins used are vitamins of groups B, E, PP.  7. The method according to PP.1 to 6, characterized in that the extract is evaporated to a pasty state and the resulting product is applied to a carrier, which is used as sugarcane pulp.