GR1009010B - Organic fertiliser (bio-actuator) of vegetal origin - preparation method of same - Google Patents

Abstract

Novelty: a method for the production of an organic plant fertilizer (bio-actuator) of vegetal origin is disclosed. Components: free L-amino acids of vegetal origin and vegetal-origin raw materials rich in maize proteins , wheat proteins and soya flour in stable proportions; the raw materials are all synchronously placed in a reactor for 10 to 46 hours, at 100-108 deg. Celcius temperature and 3.5 to 4,5 atm pressure . The proteins contain a solution of 16 free L amino acids. The resulted product is a 1,2g/ml thick liquid characterized by its brown colour and its distinguishable odor incited by the hydrolysis process of the proteins. Purpose: to be used as a fertilizer in order to assist the growth of cultivations of all kind of plants.

Description

ORGANIC FERTILIZER - BIOACTIVE OF PLANT ORIGIN AND PRODUCTION METHOD

The invention belongs to the field of organic fertilizers. It concerns a plant growth booster product and its production method. According to the current state of the art, the main problem in agriculture is the excessive use of nitrates in fertilizers, with the consequent increase in nitrates in food and the known negative effects on the environment and human health. Also, in conditions of intense agricultural activity (e.g. greenhouses), over-fertilization has led to an inability to absorb nutrients from the soil. It is known that the use of amino acids helps plants absorb the appropriate and necessary nutrients from the soil.

The present invention, organic fertilizer - bioactivator of plant origin and its production method, solves the problem of overfertilization in a natural way, as it constitutes a method of production of free L amino acids of plant origin with main components corn, wheat and soy protein. Amino acids are the basic building blocks of all organisms, and are widely used as a plant growth aid, as an additive in animal feed and in food and cosmetic products. In the current state of the art, there are several preparations with amino acids and with corn proteins as the main component, such as the present invention, but also proteins of animal origin. Such is for example EP 0560626 where by-products of animal processing are also used, while the present method only uses protein of vegetable origin. Similarly JP 2225388 uses corn germ which is not a pure protein, as well as raw materials of animal origin. Regarding plant-based amino acid formulations that use corn protein and do not use animal-based proteins, such as the present method, they show significant differences. Thus, for example, CN 101139221 describes a plant growth enhancer, but where a product is produced which contains both potassium and phosphorus, which may not be suitable for use in all stages of plant growth. In contrast, the present product contains only organic nitrogen and the L amino acids. US 5759223 adopts different process steps than the present one, such as filtering and hydration at specific rates, while the present one does not. It also produces organic fertilizer, while this one produces free L amino acids. CN 101225000 also uses the components of corn, wheat and soy proteins, but adopts enzymatic hydrolysis while the present invention adopts acid hydrolysis. JP 2006206341 uses only corn and does not produce amino acids but an organic fertilizer. On the contrary, the present invention, organic fertilizer - bioactivator of plant origin and its production method, produces free L amino acids derived from corn proteins, while in addition the present one also uses wheat and soy, therefore additional amino acids are also produced, therefore the produced product is different. CN 1339420 applies a different method as it adopts desalination, decolorization and concentration, steps not adopted by the present invention, and also uses other raw material such as beans etc. Therefore here too the produced product is different from that of the present invention. CA 2210511 adds phosphorus as a necessary ingredient for the application of the method and indeed in a specific proportion, in contrast to the present one, therefore here again both the method followed and the produced product are different from that of the present invention. And finally, JP 4198080 uses microorganisms for enzymatic hydrolysis, while the present uses the process of acid hydrolysis, so both the method followed and the product produced are not the same. In the current state of the art there is the under no. EP2537823B1 which constitutes a method of producing a plant growth enhancer which contains only free L amino acids of plant origin. The method described in EP2537823B1 uses raw materials of plant origin only, rich in corn and wheat proteins, as well as soy flour, in a fixed proportion, which are placed in the reactor without prior treatment. Hydrochloric acid and water are added, at a specific temperature, under a specific pressure and for a specific time. After hydrolysis the proteins provide a solution of 16 free L amino acids. The method of EP2537823B1 and the product produced according to EP2537823B1 have the following advantages:

It improves the uniformity of plants and affects their composition by reducing their content of nitrates and increasing their content of soluble solid components, ascorbic acid, thus significantly improving the total antioxidant capacity conferred by their consumption.

It enhances the growth of the plant's root system, an extremely essential feature especially in transplanted plants. It activates the natural defense organisms of the plant making it more resistant to plant diseases.

It enhances the process of photosynthesis, stimulates the basic functions of metabolism, increases production and improves the productivity of the plant.

It helps the plant to deal with the stress it is under, for example in extreme weather conditions.

Reduces flowering and improves fruit set.

It provides the plant with the basic building materials it needs without having to consume energy to synthesize them itself. It gives the producer the ability to use it to produce any nutrient mixture he wishes, mixing it in any ratio with macronutrients, micronutrients and trace elements. It is used as a growth aid for all plants.

Also, by performing the method, a stable final product is always produced in terms of the amino acids it contains and the content ratio between them.

Also, the application of the method does not produce residues or waste, because all the ingredients used in the method are used as is and without pre-treatment, exactly in the required proportions. Once the process is complete, the produced product is packaged as is.

The new method and product described in this application also uses raw materials of plant origin only, rich in corn and wheat proteins, as well as non-genetically modified soybean flour, in a fixed ratio, which are placed in the reactor without prior treatment and added hydrochloric acid and water, at a specific temperature, under a specific pressure and for a specific time and after hydrolysis the proteins provide a solution of 16 free L amino acids, exactly as in EP2537823B1. However, when applying the method of EP2537823B1, the amino acids produced activate the plant's defense mechanisms and the flowering mechanisms in biennial plants, to an extent that shows room for improvement.

Also with the EP2537823B1 method, there is a limited production of nitrogen in the produced final composition, which creates the need to strengthen the produced product with additional chemical nitrogen, energy that is prohibited in biological fertilizers.

The present method differs from EP2537823B1 in that it uses the same raw materials but in a completely different ratio and with different hydrolysis parameters, as it requires more time and a lower temperature. Specifically, in the present method almost half the amount of water is used, corn gluten and wheat gluten and soy flour increased by 50%, and hydrochloric acid increased by 25% compared to the method of EP2537823B1.

Reducing the temperature by 6 degrees Celsius and extending the time of application of the present method by 30 hours in the above different ratios of raw materials, achieves the production of a greater amount of nitrogen of the order of about 50% and more amino acids of the order of about 40%, compared with EP2537823B1.

In particular, the comparative measurements regarding the nitrogen content demonstrate that compared to EP2537823B1, the product produced by the method described in the present application contains 62% more nitrogen and are illustrated as follows:

The comparative measurements regarding the content of L-amino acids demonstrate that compared to EP2537823B1, the product produced by the method described in the present application contains 42% more free L-amino acids and are illustrated as follows:

And the comparative measurements in terms of the content percentage of each amino acid, the comparative measurements show that compared to EP2537823B1, the different percentage of each amino acid and are illustrated as follows on the next page

As a consequence of this, with the present method a product is produced which presents all the advantages of EP2537823B1 mentioned above and in addition to these, it is recognizable and assimilated by the plant much faster as it comes from plant raw materials and has a targeted effect on the plant by stimulating and enhancing action of various mechanisms of his physiology. In addition, it prevents the stress that comes from low temperatures by achieving faster absorption of amino acids by the plant, resulting in its quick and complete recovery.

Therefore, the present method solves the problem of reduced nitrogen production in the final produced composition and reduced flowering in the two-year cycle of the plant which are not sufficiently solved by the method described in EP2537823B1. The product produced with the present method achieves the acceleration of all the above processes, which has the effect of continuously improving the growth of the plant and thus maintaining its health and well-being.

In detail, the production method of the organic fertilizer-bioactivator of plant origin is as follows:

As raw materials are used:

Corn gluten at a rate of 30% w/w

Wheat gluten at a rate of 5% w/w

Soya flour at a rate of 15% w/w

Hydrochloric acid at a rate of 25% w/w

Water at a rate of 25%w/w

All raw materials are placed in the reactor at the same time, without any pretreatment or treatment.

They remain inside the reactor under conditions of continuous constant stirring, at a temperature of 104 degrees Celsius, a pressure of 4 atm, and a time of 44 hours.

The pH of the product is then adjusted from 2.7 to 3.2. By following the above procedure, the production of a final product with free amino acids and not peptides is directly achieved.

No further processing steps follow and the product is ready for use.

The process conditions as described above are the ideal conditions for producing the desired product. The method produces the same product if the temperature has a deviation of ±3% i.e. from 100-108 degrees Celsius, the pressure has a deviation of ±10% i.e. from 3.5 to 4.5 atm and the time is at least 40 and by maximum 46 hours.

The natural state of the product is a liquid, with a density of 1.2g/ml, brown to dark brown liquid and the characteristic odor of the protein hydrolysis process.

Applying the above method always produces a stable final product that has the following composition in terms of percentage content (%), carbon to nitrogen ratio [C/N]

C/N ratio = 3.75

Furthermore, the amino acids of the organic fertilizer - bioactivator of plant origin of the final product produced by the present method, are found in a content of 15.7% w/w of the produced product and have the following composition:

pH: 2.7 - 3.2

The product is used as a growth aid in the cultivation of all plants (fertilizer) in all types of plants, such as lawns, garden flowers, indoor and outdoor plants, greenhouse and non-greenhouse vegetables, nurseries, olives, citrus fruits, apples, stone fruits, tomatoes , beets, corn, cotton, vines, potatoes, tobacco, fruit and non-fruit trees. It is combined with most plant protection products and foliar fertilizers of the current state of the art.

Claims (3)

1. Method of production of organic fertilizer - bioactivator of plant origin with acid hydrolysis which is characterized by the fact that it is carried out with the following steps: i. the raw materials are placed in the reactor at the same time: corn gluten at a rate of 30% w/w wheat gluten at a rate of 5% w/w soy flour at a rate of 15% w/w hydrochloric acid at a rate of 25% w/w water at a rate of 25% w/w ii. the raw materials remain in the reactor under conditions of continuous constant stirring, at a temperature of 100-108 degrees Celsius, a pressure of 3.5 to 4.5 atm and a time of 40 to 46 hours, and iii. then the Ph of the product is adjusted from 2.7 to 3.2. 2. Method for producing organic fertilizer - bioactivator of plant origin with acid hydrolysis according to claim 1, which is characterized by the fact that for the ideal application of the method, the raw materials remain inside the reactor under conditions of continuous constant stirring, at a temperature of 104 degrees Celsius, pressure 4 atm, and time 44 hours. 3. Organic fertilizer - bioactivator of plant origin produced according to the method of claims 1 and 2, which is characterized by the fact that it is prepared with raw materials: corn gluten at a rate of 30% w/w wheat gluten at a rate of 5% w/w soy flour at a rate of 15% w/w hydrochloric acid at a rate of 25% w/w water at a rate of 25% w/w since it has a final composition: amino acids of vegetable origin in the product 15.7% w/w peptides, sugars, hydrolysis residues in the product 34.3% w/w water in the product 50 % w/w with a density of 1.2g/ml and that the amino acids of plant origin 15.7% w/w in the final product produced are: Alanine (Ala) in product 1 .73 w/w Arginine (Arg) in product 0.52 w/w Aspartic acid (Asp) in the product 1.62 w/w Glutamic acid (Glu) in product 3.73 w/w Glycine (Gly) in the product 0.69 w/w Histidine (His) in product 0.28 w/w Isoleucine (lie) in the product 0.33 w/w Leucine (Leu) in the product 1.88 w/w Lysine (Lys) in the product 0.46 w/w Methionine (Met) in product 0.24 w/w Phenylalanine (Phe) in product 0.78 w/w Proline (Pro) in the product 1.34 w/w Serine (Ser) in the product 0.71 w/w Threonine (Thr) in product 0.46 w/w Tyrosine (Tyr) in product 0.47 w/w Valine (Val) in the product. 0.46 w/w