RO137903A2 - Biostimulant product based on proteinaceous substances, preparation process and application method - Google Patents

Abstract

The invention relates to a product which is a biostimulant based on proteinaceous substances, to a process for preparing the same and to a method of application. According to the invention, the product consists of 7.4...9.8% nitrogen in ammonium, nitric and organic form, 0.8...2.4% phosphorus pentoxide, 2.7...3.4% potassium oxide, 7...11.4% organic substances of which 5.3...9.2% as proteinaceous substances, as well as microelements: iron, zinc, copper, manganese, cobalt, molybdenum, boron, magnesium, sulphur, the percentage being expressed by mass. The process, as claimed by the invention, consists of the acid hydrolysis reaction, in the presence of nitric acid, phosphoric acid and bone glue as source of proteinaceous substances, at 80...85°C, for 2...4 h, while continuously stirring, acidity neutralization with potassium bicarbonate and ammonia water up to a pH value of 5.5...6.5, solution cooling and admixture of secondary elements and microelements chelated with organic acids. The claimed method consists in administering the biostimulant, as claimed, by spraying it on the plants as an aqueous solution in a concentration of 0.25...2.5% and on the seeds, prior to sowing, in a concentration of 0.15...0.3%.

Description

STATE OFFICE FOR INVENTIONS AND TRADEMARKS Application for Invention patent

No...............2^......,^...4.LL

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BIOSTIMULANT PRODUCT BASED ON PROTEIN SUBSTANCES, PROCESS OF OBTAINING AND METHOD OF APPLICATION

The invention refers to a complex biostimulant product with extraradicular application, representing a concentrate of mineral substances, containing nitrogen, phosphorus, potassium, and organic substances with biostimulant properties derived from protein sources of animal origin through acid hydrolysis, with the addition of secondary elements and microelements iron, zinc, copper, manganese, boron, cobalt molybdenum, magnesium, sulphur, to a method of obtaining it and to a method of its application.

Extra-root fertilizers with nitrogen, phosphorus, potassium and microelements are known which may also contain synthetic organic substances, plant extracts or protein hydrolysates introduced with the aim of stimulating the metabolism of nutrients and facilitating the absorption and penetration of ionic species or molecules into the leaves (RO 116082, RO 108953, RO 113846, RO 116082, RO 120258, RO 120403, RO 111005, RO 113846, RO 121814, RO 122197, RO 123139, RO 123140, RO 121814, RO 1269 39, RO 127400).

A series of procedures for obtaining extraradicular fertilizers are known, which consist in obtaining a solution of primary and / or secondary ammonium, ammonium and potassium phosphates, addition of nitrogen in the form of urea, ammonium salts, polycarboxylic organic acids, polyols, ethanolamines , carbohydrates (RO 108953, RO 113846, RO 116082, RO 118953), respectively for ennobling with microelements Fe, Mn, Cu, Zn, Mg, Co, Mo of protein hydrolysates of animal or vegetable nature (RO 103651, RO 116083, RO 120403, RO 127400, RO 126939).

The presence in the composition of fertilizing products with extraradicular application of natural or synthetic organic substances with growth-stimulating activity, such as heteroauxin, betaindoylacetic acid, triiodobenzoic acid, gibberellin and its derivatives, amino acids such as glycocol, alanine, phenylalanine, proline, oxyproline, asparagine, glutamine, arginine, histidine, lysine, serine, threonine, valine, peptides, ureides and phosphoproteins in low concentrations of even tens of ppm lead to the increase of the leaf surface of plants, the process of photosynthesis and chlorophyll pigments, the development new plant formations, flowers and fruits.

The assimilation of nutrients by plants takes place in a complex system of factors, the development of which is accompanied by energy-intensive effects and is interconnected with the metabolic processes in the plant and external pedoclimatic factors. As most of the metabolic processes occur in the plant at the cellular level, especially in the leaves, the importance of the method of extraradicular fertilization is obvious, an important factor that significantly intervenes in the growth and development of plants, the influence being decisive and determined by ensuring the necessary nutritional elements in a form accessible to plants. Nutrient elements are absorbed in the form of neutral molecules in the case of CO(NH ₂ )2, NOa', K ⁺ , Ca ⁺² , Mg ⁺² , HPCU ² ', NH4 ⁺ ions, hydroxides, chelates, organic complexes with amino acids, acids organics, humic substances, organic extracts. chemical elements, such as Fe, Cu, Mn, Mg, Zn, Co, Mo and others, participate in biosynthesis processes. in ionic form, some of them entering into the composition of enzymes that catalyze various biochemical processes while others ensure the maintenance of the equilibrium state necessary for the development of biochemical processes, such as K ⁺ , Ca ⁺² , CI ^- , for the transport and storage of accumulation substances, the processes of evapotranspiration K ⁺ , HPO4 ² ', or the nitrogen that enters into the constitution of amino acids, structural protoplasmic proteins, nucleic acids DNA, RNA, substances with a bioactive role, chlorophyll pigments, some vitamins B1, B2, B6, B12, PP, enzymes, of specific substances from the category of alkaloids and at the same time participate in growth processes.

The composition of fertilizers with extraradial application must be selected in such a way as to provide the content of nutrients necessary to counteract stress situations determined by the demand for nutrients during plant growth, unfavorable conditions of temperature, humidity, technology or different types of soils.

The category of biostimulant products can include protein hydrolysates of animal or vegetable origin, algae extracts (Ascophyllum, Durvillaea, Ecklonia, Laminaria/Saccharina, Sargassum) and humic substances.

It is known that protein hydrolysates represent polydisperse media made up of polypeptides, peptides, oligopeptides and free amniotic acids, in a percentage determined by the degree of hydrolysis obtained in the process, and that they have the ability to chelate a series of metal cations such as Fe, Mn, Cu, Zn, Mg, Ca, Co, which gives them a wide range of applications in the pharmaceutical and cosmetic industry, the chemical industry, as well as that of fertilizers and food products (US 4,427,658, US 4,169,716, US 4,491,464, US 7,271,128 B2 , US 2005-0086987 A1, US 2007-0087039 A1).

Protein hydrolysates have gained importance as biostimulators due to a wide spectrum of positive actions on plants, influencing, in addition to plant growth and development, photosynthesis processes, biochemical ones and biological phenomena, such as germination, initiation of buds, tubers and bulbs, circulation of water, sap raw and elaborated, evapotranspiration, absorption and transport of inorganic and organic substances, stomatal movement, resistance to falling of leaves, flowers and fruits, flowering and fertilization, resistance of plants under conditions of pedoclimatic, technological stress and pathogens, concomitant with the reduction of applied doses of synthetic chemical fertilizers.

The technical problem that the invention solves consists in obtaining complex biostimulant compositions of high efficiency and agronomic effectiveness, with environmental protection effects, through the superior valorization using the process of acid hydrolysis of natural protein substances, in an NPK type matrix by ennobling with mineral salts and a high concentration of fully chelated secondary elements and microelements, fertilizing composition that optimizes plant nutrition, favors absorption and metabolism in the leaf parenchyma of ions, stimulates root and extra-root vegetative development, increases plant resistance to climatic stress factors and technologically, to pathogenic agents.

The complex biostimulant composition that is the subject of the invention has a ratio of macronutrients N : P2O5 : K2O between 4: 1: 1.5 and 9: 1: 3 meeting the conditions of extraradicular application in different vegetation phases of the plants, ensuring both vegetative growth, as well as preventing and combating nutritional deficiencies. The biostimulant ensures a very good adhesion of the nutritional elements on the leaves, including a high transfer of them in plant metabolism and an effective coverage of the leaf surface.

The extraradicular application of the biostimulant in three treatments can reduce by 10...15% the dose of classic nitrogen fertilizers used in basic fertilization, an important factor in ensuring environmental protection by reducing nitrogen leaching into the groundwater.

The complex biostimulant product with extraradicular application, according to the invention, consists of: 7.4...9.8% total nitrogen, of which 3.2...4.6% ammoniacal nitrogen, 3.3...3, 6% nitric nitrogen, 0.9...1.6% organic nitrogen, 0.8...2.4% phosphorus pentaoxide, 2.7...3.4% potassium oxide, 7... 11.4% organic substances of which 5.3...9.2% as protein substances, respectively peptides, oligopeptides and free amnioacids, 0.09...0.1% iron, 0.07...0, 1% zinc, 0.06...0.1% copper, 0.03...0.04% boron, 0.05...0.08% manganese, 0.02...0.06% magnesium, 0.006...0.02% molybdenum, 0.001...0.003% cobalt, 0.5...1.6% sulfur as SO3, a N:P2Os:K2O molar ratio between 40:1:2 and 90 : 1 : 5 and a pH = 5.5...6.5.

The process of obtaining the biostimulant product, according to the invention, consists in the acid hydrolysis reaction in the presence of 600...660g of HNO3 of 28...30% concentration and 15...45g of H3PO4 of 85% concentration, at an acidic molar ratio nitric: phosphoric acid of 30...11.5:1, a 100...180 g of bone glue, as a source of protein substances, at a temperature of 8O...85°C, for 2...4 hours, cooling the solution to a temperature of 2O...25°C, neutralizing it to a pH of 5.5...6.5 with 180...250g ammoniacal water of 23% concentration and 45...60g K2CO3 and adding for 1000g of product, 2.4...6.5 g tetrasodium salt of ethylenediaminetetraacetic acid, 1...2 g CeHsCh, 1.5...3 g MgSO ₄ 7H ₂ O, 7.8...9 ,3g FeEDTANa ₂ , 5.1...6.1g ZnEDTANa ₂ , 4.3...5.2g CuEDTANa ₂ , 4.5...5.0g MnEDTANa ₂ , 0.05...0.15g Οο(ΝΟ ₃ ) ₂ 6H2O, 1...4g Na ₂ B ₄ O7 WH2O, 0.12...0.4g (ΝΗ4) ₆ Μθ7θ ₂ 4 4H2O and 10...30g (NH4)2SO4 and stirring time for one hour at a temperature of 2O...22°C.

The method of applying the extraradicular fertilizer, according to the invention, consists in the fact that the product is administered by spraying on plants in the form of an aqueous solution with a concentration of 0.25...2.5%, in an amount of 150...1500 l/ha depending on the crop and vegetation phases of the plants, respectively applied to the seed before sowing as a 0.15 - 0.3% biostimulant concentration solution, in the amount of 10...15 liters per ton of seeds.

The biostimulant product applied extraradially ensures production increases of 10...15% in sunflower, wheat and corn crops, 20...25% in vegetable, fruit and viticulture, favors the accumulation of nitrogen, phosphorus and potassium elements in plants and fruits, increases by 15...20% the photosynthesis process in the leaves, ensures the development of the leaf and root system, as well as increases the plants' resistance to pedoclimatic stress factors.

2 examples of the invention are given next.

Example:

To obtain 1000 g of biostimulant product, in an acidic solution containing 600 g of HNO3 acid of 28% concentration and 15 g of H3PO4 of 85% concentration, 100 g of bone glue is added gradually and with stirring, as a source of protein substances. After the mixture is homogenized, it is heated to 80...85°C and the organic substances are hydrolyzed for two hours at a constant temperature, under continuous stirring.

The resulting solution is cooled to 2O...22°C and the free acidity is gradually neutralized, under stirring and cooling at a constant temperature, with 180g of ammonia water of 23% concentration and 45g of K2CO3, until a pH between 5.5. ..6.0.

in 100 cm ³ of demineralized water, prepare the solution of secondary elements and trace elements by dissolving under stirring: 2.4g tetrasodium salt of ethylenediaminetetraacetic acid, 1g CeHsCh, 1.5g MgSCU 7H2O, 7.8g FeEDTANa2, 5.1g

ZnEDTANaz, 4.3g CuEDTANa2, 4.5g MnEDTANa2, 0.05g Co(NO3)2 6H2O, 1g Na2B4O? IOH2O, 0.12g (NH4)6Mo?O24 4H2O and 10g (NH4)2SO4.

The solution of secondary elements and microelements is gradually added over the previously obtained protein hydrolyzate solution and the stirring is continued for one hour at a temperature of 20...22°C.

The complex biostimulant, with extraradicular application, based on natural protein substances, according to the invention, consists of: 7.4% total nitrogen, of which 3.2% ammoniacal nitrogen, 3.3% nitric nitrogen, 0.9% organic nitrogen , 0.8% phosphorus pentaoxide, 2.7% potassium oxide, 7% organic substances of which 5.3% as protein substances, namely peptides, oligopeptides and free amnioacids, 0.09% iron, 0.07% zinc , 0.06% copper, 0.03% boron, 0.05% manganese, 0.02% magnesium, 0.006% molybdenum, 0.001% cobalt, 0.5% sulfur as SO3 and a pH = 5.5... 6.0.

Example 2:

To obtain 1000g of biostimulant product, in an acidic solution containing 660g of nitric acid of 30% concentration and 45g of phosphoric acid of 85% concentration, 180g of bone glue is added gradually and with stirring, as a source of protein substances. After the mixture is homogenized, it is heated to 80...85°C and the organic substances are hydrolyzed for four hours at constant temperature, under continuous stirring.

The resulting solution is cooled to 2O...22°C and the acidity is gradually neutralized, with stirring and cooling at a constant temperature, with 250g of 23% ammonia water and 60g of potassium carbonate until a pH between 6.0.. .6.5.

in 100 cm ³ of demineralized water, the solution of secondary elements and microelements is prepared by dissolving under stirring: 8.5g tetrasodium salt of ethylenediaminetetraacetic acid, 3g citric acid, 4g MgSO4 7H2O, 10.8g FeEDTANa2, 7.6g ZnEDTANa2, 6.8g CuEDTANa2, 7.5g MnEDTANa2, 0.15g Co(NO3)2 6H2O, 4g Na2B40y IOH2O, 0.4g (ΝΗ ₄ )6Μθ7θ ₂ 4 4H2O and 30g (NH4)2SO4.

The solution of secondary elements and microelements is gradually added over the previously obtained protein hydrolyzate solution and the stirring is continued for one hour at a temperature of 20...22°C.

The complex biostimulant, with extraradicular application, based on natural protein substances, according to the invention, consists of: 9.8% total nitrogen, of which 4.6% ammoniacal nitrogen, 3.6% nitric nitrogen, 1.6% organic nitrogen , 2.4% phosphorus pentaoxide, 3.4% potassium oxide, 11.4% organic substances of which 9.2% as protein substances, respectively peptides, oligopeptides and free amnioacids, 0.1% iron, 0.1 % zinc, 0.1% copper, 0.04% boron, 0.08% manganese, 0.06% magnesium, 0.02% molybdenum, 0.003% cobalt, 1.6% sulfur as SO3 and a pH = 6. ..6.5.

Claims (3)

BIOSTIMULANT PRODUCT BASED ON PROTEIN SUBSTANCES, PROCESS OF OBTAINING AND METHOD OF APPLICATION demand 1. The complex biostimulant product with extraradicular application, according to the invention, consists of: 7.4...9.8% total nitrogen, of which 3.2...4.6% ammoniacal nitrogen, 3.3... 3.6% nitric nitrogen, 0.9...1.6% organic nitrogen, 0.8...2.4% phosphorus pentaoxide, 2.7...3.4% potassium oxide, 7. ..11.4% organic substances of which 5.3...9.2% as protein substances, respectively peptides, oligopeptides and free amnioacids, 0.09...0.1% iron, 0.07... 0.1% zinc, 0.06...0.1% copper, 0.03...0.04% boron, 0.05...0.08% manganese, 0.02...0, 06% magnesium, 0.006...0.02% molybdenum, 0.001...0.003% cobalt, 0.5...1.6% sulfur as SO3, a molar ratio N:P2Os:K2O between 40:1: 2 and 90 : 1 : 5 and a pH = 5.5...6.5. 2. Process for obtaining the biostimulant product, according to the invention, consisting in the acid hydrolysis reaction in the presence of 600...660g HNO3 of concentration 28...30% and 15...45g H3PO4 of concentration 85%, at a ratio molar nitric acid: phosphoric acid of 30...11.5:1, a 100...180g of bone glue, as a source of protein substances, at a temperature of 8O...85°C, for 2...4 hours , cooling the solution to a temperature of 2O...25°C, neutralizing it to a pH of 5.5...6.5 with 180...250g ammoniacal water of 23% concentration and 45...60g K2CO3 and the addition for 1000g of product of 2.4...6.5g tetrasodium salt of ethylenediaminetetraacetic acid, 1...2 g CeHsO?, 1.5...3 g MgSCU 7H ₂ O, 7.8...9 ,3g FeEDTANa ₂ , 5.1...6.1g ZnEDTANa ₂ , 4.3...5.2g CuEDTANa ₂ , 4.5...5.0g MnEDTANa ₂ , 0.05...0.15g Co(NO ₃ ) ₂ 6H ₂ O, 1...4g Na ₂ B ₄ O ₇ 10H ₂ O, 0.12...0.4g (ΝΗ4)θΜθ7θ ₂ 4 4H ₂ O and 10...30g ( NH4) ₂ SO4 and stirring for one hour at 2O...22°C. 3. The method of applying the extraradicular fertilizer, according to the invention, consists in the fact that the product is administered by spraying on plants in the form of an aqueous solution with a concentration of 0.25...2.5%, in a quantity of 150...1500 l /ha depending on the crop and vegetation phases of the plants, respectively applied to the seed before sowing as a 0.15 - 0.3% biostimulant concentration solution, in the amount of 10...15 liters per ton of seeds. and