BG67206B1 - Zinc containing foliar fertilizer and dosing method thereof - Google Patents

Abstract

The invention relates to liquid foliar fertilizer, which is an organic compound obtained by chemical synthesis between boric acid, diphosphorus pentoxide, ammonium molybdate, urea, potassium, calcium, sodium, cobalt, magnesium, manganese, copper, iron and zinc sulfate, as the magnesium, copper, iron, manganese, zinc in combination with cobalt and calcium are chelated with iminodiacinic acid under the influence of a high-frequency electromagnetic field and a surfactant - a combination of mono-, di- and triethanolamine. The liquid foliar fertilizer is a stimulating nutritional supplement that activates the Krebs cycle and the immune system of plants, as a result of which they become more resistant to diseases, climatic conditions, and increases the absorption of fertilizers and the effectiveness of plant protection products, as a result of which it shortens the time from seed to finished harvest from 10 to 25 days and yields increase by over 20%. When used separately, there is no quarantine period and after treatment it is degraded up to 30 days to components that do not pollute the environment. It is safe for humans, animals and bees, which is why it can be used for foliar treatment of plants, both in field and greenhouse conditions, as well as experiments in closed ecological systems. Its expiry date is to 3 years when kept at temperature of -5 ° C to + 30 ° C in shaded, closed and ventilated containers.

Description

Field of technology

The invention relates to liquid foliar fertilizer and a method for its dosing, which is designed to stimulate the immune system of plants, accelerating their vegetation development, nutrition and metabolism in extreme conditions caused by anomalies in the Earth's climate and space flight.

BACKGROUND OF THE INVENTION

Until now, different fertilizers and plant stimulants of different chemical composition have been used in agriculture. Currently in the formation of foliar fertilizers are used nutrients basic N, P, K, secondary Ca, Na, S, Mg and trace elements B, Cu, Fe, Μη, Zn, Co, Mo in complex or chelated form and the following chelating agents - sodium, ammonium and potassium salts of EDTA, HEEDTA, DTPA, EDDHA, EDDHMA, EDDCHA, HBED, EDDHSA or the acids themselves. Similar is the liquid fertilizer chelated on the basis of EDTA - ethylenediamine tetraacetic acid and its salts - RO 121814. The main disadvantage of these chelating agents is that the period of their decomposition is more than 1 year, which contributes to salinization of soils - pH is different from the optimal - pH 6.5 - 7.5, due to which harmful substances accumulate in agricultural production and its quality deteriorates, soil, water and air are also polluted.

With growth regulators and stimulants, the problems are similar - the use of amino acids, bioactive substances and preparations in most cases provoke the immune system of plants and they become susceptible to diseases that are not typical for a given agricultural area or season. At present, these processes and phenomena are interpreted and explained by factors related to peak climate change and global warming. Yields from agricultural production are generally declining, the nutritional qualities of the products are deteriorating. To date, no information has been published about a universal liquid foliar fertilizer that is biologically compatible with plants and they recognize it as their organic matter ”and has the following complex properties - stimulating and activating the immune system, the Krebs cycle at a higher energy level. , accelerating the metabolism of plants without additional energy expenditure - nutrients, resulting in the effect of controlled vegetation, expressed in.

- acceleration of: germination, rooting, development of the root system, stem, leaf mass, flowering, fruit, seeds, tubers;

- increase of yields and resistance to: drought, humidification, cold and high temperatures, diseases, infections, mechanical impacts from hail, winds, birds, manipulations during treatment, transport, etc .;

- shortening of the vegetation cycles - from seed to ready harvest,

- increasing the efficiency of plant protection products and fertilizers;

- activation of the process of self-cleansing of plants at the cellular level and intercellular space from the harmful components of the preparations, nutrients and the "carcass residue" from the pathogen;

- extension of the period for storage of agricultural products;

Mandatory requirements for liquid foliar fertilizer:

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- to be safe for the environment, storage period at least 2 years;

- degrade within 30 days after treatment without polluting the environment,

- no quarantine period after treatment;

- affordable production based on waste-free technology with low energy consumption and cost at high profitability;

- compatibility with all plant protection products and fertilizers approved for use in the European Union and the Republic of Bulgaria.

In order to meet these conditions, the liquid foliar fertilizer will have to be synthesized on the basis of organic compounds - primary and secondary nutrients, and the microelements must be chelated with an acid compatible with plant organic matter. Technical essence of the invention

The invention aims to create a liquid foliar fertilizer and a method for its dosing, which will achieve in practice faster adaptability, less than 1 hour in real time, ie. controlled vegetation in plants, protecting them from peak anomalies caused by the climatic conditions and living environment of the Earth and in space flight.

According to the invention, the composition of the liquid foliar fertilizer comprises in% by weight.

- from 4 to 10-N, nitrogen from 0.05 to 8-P, phosphorus from 0.05 to 8-K, potassium

- from 0.001 to 4.0 - calcium, sodium, cobalt, from 0.1 to 5 - sulfur;

- trace elements - from 0.05 to 2.0 - boron, from 0.05 to 1.0 - molybdenum and from 0.05 to 4.0 - magnesium, copper, iron, manganese, zinc, which in one with cobalt and calcium are chelated, for chelating agent is used IDHA - iminodiartaric acid from 8.0 to 30.0 for surfactant - a combination of mono di and triethanolamine - from 30.0 to 70.0, as% by weight for the respective chemical elements are obtained as a result of chemical synthesis between the starting elements - raw materials, namely nitrogen from urea CO (NH ₂ ) ₂ , phosphorus from P ₂ O ₅ , potassium from potassium sulfate K ₂ SO ₄ , calcium from CaSO ₄ x2H ₂ O, sodium from Na ₂ Cso _{4 xl0H 2} O, cobalt from CoSO ₄ x7H ₂ O, boron from boric acid - Н ₃ ВО ₃ , molybdenum from (ΝΗ ₄ ) ₆ 7ο ₇ Ο ₂₄ χ4Η _{2 (} , magnesium from MgSO ₄ x7H ₂ O, copper from CuSO ₄ x5H ₂ O, iron from FeSO ₄ x7H ₂ O, manganese from MnSO ₄ x4H ₂ 0, zinc from ZnSO _{4 x7H 2} O SO4, sulfur from SO ₄ ;

According to the invention, the dosage of the liquid foliar fertilizer is: the single dose for treatment of 1 dka is from 10.0 to 200.0 ml and the total number of doses - the treatments are from 3 to 15 pieces for one vegetation cycle;

According to the invention, the application of the liquid foliar fertilizer takes place in the form of a 0.01 to 2.0% aqueous solution with a pH of 6.0 to 8.0, alone or in combination with all fertilizers and plant protection products for foliar treatment, such as has a positive effect on plants, the effect of controlled vegetation is manifested in all types of plants grown on Earth and in space flight, reducing the stress caused by abrupt changes in climate, environment and diseases, without affecting their genetics, increasing yields and reducing the time for their receipt to 30%.

An embodiment of the invention

The invention of liquid foliar fertilizer and a method for its dosing are explained in more detail with the following examples, without limiting it:

Example 1 - for content

1. Content of the chemical elements that form the preparation in weight%:

- Nitrogen / N / -5.00 - Boron / B / -0.10 - Phosphorus (P) -0.05 - Potassium / K / -0.05 - Sulfur / S / -0.50 - Sodium / Na / - 0.04 - Molybdenum / Mo / -0.10 - Calcium (Ca) - 0.24 - chelated by 1DHA - Cobalt (Co) - 0.01 - chelated by IDHA - Magnesium / Mg / -0.11 - chelated by IDHA - Honey / Si / - 0.12 - chelated by IDHA - Iron (Be) - 0.15 - chelated by IDHA - Zinc / Zn / - 0.15 - chelated by IDHA

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2. Chelating agent-imino-di-succinic acid content in% by weight:

-IDHA -18.00

3. Surfactant content - ethanolamines in% by weight:

- MEA, DEA, TEA (1: 1: 1) - 60.0

Example 2 - method for dosage and administration

With the exemplary content of liquid foliar fertilizer described in Example 1, studies were carried out in laboratory, field conditions and greenhouses in the period 1988-2015 and in space greenhouses on an orbital space station in 1990-1994 and 1996-1998.

The results obtained from aboveground experiments are summarized in Table 1, which shows that the task set in the present invention - liquid foliar fertilizer is fulfilled and it is applicable for the treatment of all types of crops, depending on the scheme - number and amount of doses is obtained - manifests the effect of controlled vegetation, expressed in:

- acceleration of: germination, rooting, flowering, tying, leaf mass,

- the content of: sugars, gluten, vitamins, microelements in organic form, organic acids, chlorophyll in leafy vegetables increases,

- the fruits reach full maturity with high taste and aesthetic qualities;

- increases resistance to bacterial, fungal, etc. diseases (mange, chlorosis, rot, scab, etc.);

- the time limit for obtaining the finished crop is reduced by 10 to 25 days,

- the term for storage of the harvest (seeds, fruits, vegetables) is increased by 10 - 25% compared to the untreated harvest;

- seeds, fruits and vegetables have optimal sizes and in most cases are 10-15% larger, chlorophyll increases to 15%;

- the seeds and fruits are in the correct shape without defects;

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- in the case of orchards - apples, pears, plums, apricots, etc., after 1 year of treatment, the fruits are almost free of scab and rot when ripe. The fire burn of the pear is reduced to 20-30%, provided that the last treatment for the season is carried out in August, during the laying of the new buds;

- in the case of cherries, brown rot and cylindrosporiosis are reduced by 50 to 60%,

- the efficiency of plant protection products is increased by an additional 20%, and the absorption of fertilizers by up to 60%;

- the resistance of the plants to low and high temperatures is increased by an additional 3 · 4 C, in the case of autumn crops, fruit trees, shrubs and vineyards the cold resistance is increased by another minus 3 · 4 C,

- yields increase from 15 to 30%.

The results of experiments conducted in space greenhouses on an orbital space station with radishes, lettuce and wheat showed that in weightless conditions, vegetation in plants is possible, and when used and stimulated with liquid foliar fertilizer adapt more quickly, as time is reduced from 25 to 40%, but in general the complete solution to the problems of growing plants in space flight is the construction of a space greenhouse with controlled artificial gravity and a microclimate resembling the earth.

The finished product has a dark green olive color with a dark blue tint and a density> 1.17 g / cm ³ at pH 6 ^ 8, the use is in the form of 0.01 to 2.0% aqueous solution with a pH of 6.0 to 8 , 0, alone and in combination with all fertilizers and plant protection products for foliar treatment - having a positive effect on plants, the effect of controlled vegetation in all types of plants grown on Earth and in space flight, reducing stress, caused by abrupt changes in climate, environment and disease, without affecting their genetics, increasing yields and reducing the time to obtain them by up to 30%. The single dose for treatment of Idka is from 10.0 to 200.0 ml and the total number of doses for treatment is from 3 to 15 pieces for one vegetation cycle. For the respective crop, the quantity and number of doses required for one season - vegetation cycle are summarized in Table 1. Shelf life is up to 3 years when stored in rooms without direct sunlight - in the shade, ventilated at a temperature of -5 ° C up to +30 C in closed ventilated containers. When used alone there is no quarantine period, it is compatible with all fertilizers, plant protection products for foliar treatment of crops and plants, after treatment the product not absorbed by plants decomposes after 20 to 30 days to the elements from which it is synthesized and they are included in the food chain through the soil without contaminating and salting it. The product does not cause deposits and corrosion by the spray-treatment technique.

Liquid foliar fertilizer can be successfully applied on Earth in all latitudes, areas and zones in the production of agricultural products, helping to increase yields, improve their quality and produce organic products by stimulating the immune system of plants, accelerating their vegetative development and increasing their resistance to diseases, improving their nutrition and metabolism in extreme conditions caused by anomalies in the Earth's climate, as well as in experiments with plants in space.

The invention is illustrated by Example 1,2, Table 1.

The use of such liquid foliar fertilizer will help protect the environment without polluting water, air and soil with harmful substances and emissions, and energy savings are up to 90% compared to traditional liquid and other types of fertilizers.

Table 1

Dosages for treatment of crops with Anti-stress plant stimulator - liquid foliar fertilizer according to the content of example 1

Agricultural culture Dose in ml. per decare Over-yield kt / zha i Wheat Ο.4-Ε5μ.ι. κι seed -20-30 + | 30 | 70-120 [150] k | / dka Barley O, 4-E5ml / kg seed -20-30 + [30] 60-100 [E30 | and dka Sunflower Z. OmlUkg seed + 20 + 30 + [30] 40-85 [105 | kglka Corn 2.0ml./kg seeds + 20 + 30 + [30] 100-180 [300 | kl dka Rapeseed, tobacco 5.0ml. κι seed + 25 + 35 + [40] 28-45 | 65 | and dka Beans, peanuts, soy. peas, lentils 2.0ml./kg seeds + 15 + 30 + 30 + 30 30-70 decares Alfalfa, millet 7.5ml / kg seed + 25+ 35+ 25 14-28 and dka Polish cucumbers 130ml [20 + 30 + 30 + 30 + 20] 250-550 cl dca Greenhouse cucumbers 155ml. | 2O + .30 »30 30 2 5 20] 500-1200 κι dka Cornipjuni EZOml [20 + 30 + 30 + 30 + 20] 200-500 cells / decare Polish tomatoes 140ml [20 + 30 + 30 + 30 + 30] 250-500 k lka Tomato and her greenhouses 1bOml [20 + 30 + 30 + 30 + 30 +20] 400-850 cl dca Eggplants 115ml. | 15 + 20 + 30 + 30 + 20] 200-450 kg / dca Pepper 190ml. | 15 + 25 + (5 times 30)] 250-500 kg / dca Spinach, orocoli. cabbage, asparagus 85ml. [15 + 20 + 20 + 30] 1 (Ю-3? 0 κι дка Carrots, sugar beets, turnips 15ml.'kg seeds + 15 + 20 + 25 + 25 180-600 kg / dca Pumpkins, zucchini 85ml. [15 + 20 + 25 + 25] 80-200 κι dka Potatoes 95ml. [25 + 15 + 25 + 30] 250-500 kg decares Melons, watermelons 115ml [15 + 20 + 20 + 30 + 30] 280-500 κι dka Onions. garlic, leeks 85ml. [15 + 20 + 30 + 20] 50-350 hips Vineyards Fruits - apples, pears. cherries. 150ml [15 + 25 + 30 + 30 + 30 * 20] 250-650 kt decares prunes, apricots, peaches 155ml. | 15 + 25 + 30 + 30 + 30 + 25] 150-500 kg / dca Lavender.oil rose.ment 135ml. [20 + 25 + 30 + 2? +15 + 20] + 15-30% decares Blackcurrant.aronia.fig.blueberry 95ml. [15 + 20 + 30 + 20 + 10] + 20-30% decares Raspberries, blackberries, strawberries, rose hips. I go take it 110ml. | 15 + 20 + 25 + 30 + 201 + 20-30% decares I (itrus plantations: EZOml. [15-20-30 40 * 25] 80-120 κι dka

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Yours. herbs, spices Yu5ml. [10 · 20 - 25 · 30 + 20] + 15-30% decares

Цщфскщ на.иззя. fruits and flowers of the same are treated with a solution of

July. LR (-P ('in 10 / water. The roots and bulbs are immersed in the solution for 10 + 15 sec. CieO which are planted (peak-yields in brackets refer to crops treated by aviation or wide-reaching sprays / on the technique Oshd 20 meters) in the phase of watering the grain.The last autumn treatment of orchards 1AD7K1ZHPTE.ChP () is carried out in August during the laying of new fruit buds which increases the cold tolerance of plants is an additional minus 3 + 4 ^ C. of perennials for ί-βα year the doses are increased by another 5 ml l .................................. ........................................, ......... .................................................. .................................................. .................................................. ................................. ................. .........................

The treatment is carried out in 10 22 days together with the other chemical treatments of the respective crop. For vineyards, fruit and citrus plantations, two additional treatments are carried out after fruit picking and before flowering.

Claims (2)

Patent claims 1. Liquid foliar fertilizer containing nitrogen, phosphorus, potassium, iron, zinc, copper, magnesium, manganese, cobalt, boron, molybdenum, sulfur and a chelating agent, characterized in that it further comprises calcium, sodium and a surfactant, representing a combination of monoethanolamine, diethanolamine and triethanolamine, the chelating agent being an imino diancyanic acid binding calcium, cobalt, magnesium, copper, iron, manganese and zinc, the components being in the following amounts by weight. %: nitrogen from 4 to 10, phosphorus from 0.05 to 8, potassium from 0.05 to 8, calcium and sodium from 0.001 to 4, sulfur from 0.1 to 5, cobalt from 0.001 to 4, boron from 0.05 to 2, molybdenum from 0.05 to 1, magnesium, copper, iron, manganese and zinc from 0.05 to 4, iminodiacinic acid from 8 to 30 and a combination of monoethanolamine, diethanolamine and triethanolamine from 30 to 70. Method for dosing the liquid foliar fertilizer according to claim 1, characterized in that the single dose for treating the leaf mass of plants on an area of 1 decare is from 10 to 200 ml in the form of 0.01 to 2% aqueous solution, as the total number of treatment doses is from 3 to 15 pieces / year.