RU2184718C2 - Bio-organo-mineral fertilizer - Google Patents

Abstract

FIELD: plant growing, root and leaf fertilizer feeding. SUBSTANCE: the suggested fertilizer contains (kg/t ready-to-use product): manure of farm animals or poultry droppings processed by microbiological fermentation 2•10²-8•10², water-soluble salts of mono- or bivalent cations and nonorganic acids which contain in a bound form potassium, phosphorus and nitrogen 2•10¹-1•10². The fertilizer additionally contains (kg/t ready-to-use product): active biomass of nitrogen-fixing and potassium- and phosphorus-decomposing microorganisms 2•10^-3-2•10^-2, sodium salt of gibberellic acids 5•10^-5-5•10^-4, water-soluble salt of molybdenum (against molybdenum) 5•10^-3-5•10^-2, water-soluble salt of boron (against boron) 3•10^-3-3•10^-2 and organic component - the rest. EFFECT: higher efficiency to accelerate seeds' sprouting, plant growth and fruit maturation, increase fruit bearing and resistance to plant diseases. 2 cl, 9 ex

Description

 The invention relates to the field of crop production, namely, root and / or foliar feeding of various agricultural plants, and can be used in the cultivation of vegetables, tomatoes, gourds, strawberries, fruit crops, mainly in the cultivation of cherries, strawberries, rose hips, apricots , apple trees, as well as in the processing of seeds and cuttings of these plants in the preparation of seed.

 The development trend of modern crop production is to accelerate growth and increase plant productivity.

 Natural soils on which plants are grown are sufficiently depleted. In addition, depending on the place of plant growth, soils may be deprived of important micro and macro elements necessary for the normal development of plants.

 Since the results of plant modifications carried out by genetic engineering methods do not always satisfy users of crop production products and, moreover, it is not known what consequences may be caused by the consumption of genetically modified plants, mainly the acceleration of plant growth and development is based on the use of macro- and trace elements, fertilizers, as well as natural plant hormones.

 The use of organic and mineral fertilizers has been widely and long known in crop production. However, the use of organic or mineral fertilizers alone for the needs of crop production no longer meets the needs of agriculture.

 The introduction of macro- and microelements into fertilizers (aluminum, iron, copper, zinc, molybdenum, cobalt, nickel, iodine, selenium, bromine, fluorine, arsenic, boron) has a known effect on plant development, but the use of each of these macro- and microelements can be enhanced by the introduction of not only other chemical elements from the above, but also other biogenic elements.

 Hormones of plant growth and development can be attributed to these biogenic elements. The most accessible nutrients include derivatives of gibberellic acid, mainly its salts.

 Mostly they use complex compositions for activating the growth and development of plants containing sources of nitrogen, phosphorus, potassium, as well as macro- and microelements (Big Encyclopedic Dictionary "Chemistry". Scientific Publishing House "Big Russian Encyclopedia", M., 1998, p. 603) .

 Complex fertilizer is also known that provides enhanced plant growth (SU, copyright 1794939, С 05 F 11/02, 1993), containing peat, waste from microbiological production, phosphorus-containing water-soluble salt, potassium-containing water-soluble salt, water-soluble compounds of boron, molybdenum, manganese, copper and cobalt.

 A disadvantage of the known fertilizer should be recognized as its low efficiency in the activation of fertilizers containing nitrogen, potassium and phosphorus, during plant nutrition and seed treatment.

 Known activator of soil microflora (RU, patent 2108999, C 02 F 11/08, 1998) containing biological, mineral, organic components and trace elements. The specified source was used as the closest analogue.

 A disadvantage of the closest analogue should be recognized as its low efficiency in the activation of fertilizers containing nitrogen, potassium and phosphorus, in plant nutrition and seed treatment.

 The technical problem solved by the present invention is to develop a composition that allows to accelerate the growth and development of fruit plants and vegetable crops.

 The technical result obtained by the implementation of the invention is to reduce the time of seed growth, accelerate plant growth, fruit ripening speed, increase fruiting and resistance in relation to plant diseases.

The specified technical result is obtained using bioorganineral fertilizer containing biological, mineral, organic components and trace elements, moreover, as a mineral component it contains water-soluble salts of mono-, divalent cations and inorganic acids containing potassium, phosphorus and nitrogen in bound form as biological component - processed by microbiological fermentation manure of farm animals or bird droppings, as well as active biomass nitrogen-fixing Microorganisms and microbes, decompose the compound containing potassium and phosphorus and trace elements are used as the molybdenum and boron, in addition, the fertilizer comprises the sodium salt of gibberellic acids at the following contents of ingredients, kg per 1 ton of finished product:
Manure of farm animals or bird droppings processed by microbiological fermentation - 2 • 10 ² -8 • 10 ²
Water-soluble salts of mono-, divalent cations and inorganic acids containing potassium, phosphorus and nitrogen in bound form - 2 • 10 ¹ -1 • 10 ²
The active biomass of nitrogen-fixing microorganisms and microorganisms that decompose potassium and phosphorus compounds (in terms of ASW) - 2 • 10 ^-3 -2 • 10 ^-2
Gibberellic acid sodium salt - 5 • 10 ^-5 -5 • 10 ^-4
Water-soluble salt of molybdenum (in terms of molybdenum) - 5 • 10 ^-3 -5 • 10 ^-2
Water-soluble salt of boron (in terms of boron) - 3 • 10 ^-3 -3 • 10 ^-2
Organic Ingredient - Else
Preferably, the active biomass is introduced into the fertilizer as a suspension or paste, or as a dry active powder. Typically, peat and / or sawdust and / or waste from processing agricultural vegetable products are used as an organic filler. The introduction of active biomass into the fertilizer provides more efficient absorption of important nutrient components by plants.

 When selecting the composition of the fertilizer, we proceeded from the experimentally established fact of stimulating plant growth, accelerating seed germination, increasing plant productivity by the action of sodium salts of gibberellic acids with full mineral nutrition of plants. However, as it was experimentally established, the action of sodium salts of gibberellic acids is not enough to achieve the specified technical result. The indicated result, as it turned out, can be obtained by the additional introduction of water-soluble salts of boron and molybdenum into the composition of the fertilizer. The quantitative ratios of the fertilizer ingredients were selected experimentally.

 Fertilizer is obtained by mixing pre-ground ingredients.

 The introduction of biologically active components into the fertilizer provides a more efficient assimilation by plants of the most important nutrient components: nitrogen, phosphorus and potassium, and, as a consequence, accelerated plant growth and development.

 In the future, the invention will be illustrated by the following examples.

 Example 1 (control). Rosehip seeds were placed in a Petri dish on humus containing ammonium nitrate in an amount of 0.1% and potassium dihydrogen phosphate in an amount of 0.06% by weight of humus. Seeds are evenly placed on a Petri dish. 20 seeds were placed in each cup. The cups were tightly covered with lids, and rosehip seeds were germinated at room temperature for 10 days. On the ninth day, the number of sprouted seeds averaged 8 pieces per cup, and on the tenth day - 18 pieces per cup.

Example 2. Prepared a fertilizer containing a water-soluble salt of molybdenum (in terms of molybdenum) in the amount of 6 • 10 ^-3 kg / t of the finished product, a water-soluble salt of boron (in terms of boron) in the amount of 4 • 10 ^-3 kg / t of the finished product , sodium salt of gibberellic acids in an amount of 7 • 10 ^-5 kg / t of the finished product, the active biomass of nitrogen-fixing, as well as potassium and phosphorus-degrading microorganisms (in terms of a.s.), in an amount of 1 • 10 ^-2 kg / t finished product, water-soluble salts of mono-, divalent cations and inorganic acids, soda rzhaschie bound form in potassium, phosphorus and nitrogen in an amount of 50 kg / ton of finished product, processed microbial fermentation of manure of farm animals in an amount of 300 kg / tonne of finished product and peat to produce one ton of finished product.

 The obtained fertilizer was used for germination of rosehip seeds under conditions similar to Example 1. For the germination of seeds, a mixture of the same humus was used with an additive in the amount of 15% of the fertilizer obtained as shown above. After 5 days, an average of 9 seeds sprouted per cup, after 8 days - 22 seeds. The acceleration of germination time was approximately 36%.

Example 3 (control). Outlets of garden strawberries were planted in pots 15 cm high and 100 cm ^{2 in area} . The pots were filled with soil obtained by mixing sand (washed), clay and peat, taken in an amount of 1: 1: 1. In each pot planted 6 outlets of wild strawberries. Outlets were kept for two weeks in a greenhouse. Outlets were watered every day with settled tap water. Every 5 days, the sockets were watered with a solution of mineral fertilizer containing, wt.%:
Ammonium nitrate - 0.1
Potassium dihydroorthophosphate - 0.06
Magnesium Sulfate - 0.01
Iron (II) sulfate - 0.002
Zinc sulfate - 0,0005
Manganese Sulfate - 0,0003
Copper sulfate - 0.00001.

 After two weeks, the survival rate of the sockets was 68%.

Example 4. A fertilizer was prepared containing a water-soluble salt of molybdenum (in terms of molybdenum) in the amount of 3 • 10 ^-2 kg / t of the finished product, a water-soluble salt of boron (in terms of boron) in the amount of 9 • 10 ^-3 kg / t of the finished product , gibberellic acid sodium salt in the amount of 8 • 10 ^-5 kg / t of the finished product, the active biomass of nitrogen-fixing microorganisms and microorganisms that decompose potassium and phosphorus-containing compounds, introduced in the form of a suspension, in the amount of 2 • 10 ^-2 kg / t of the finished product ( in terms of A.C. c), water-soluble whether mono-, divalent cations and inorganic acids, containing bound form potassium, phosphorus and nitrogen in the amount of 90 kg / t of the finished product, manure of farm animals processed by microbiological fermentation in the amount of 500 kg / t of the finished product and sawdust to produce one ton of the finished product .

 Rosettes of garden strawberries were grown under conditions similar to Example 3. However, 20% of the obtained fertilizer was added to the indicated soil and mixed thoroughly with soil. After two weeks, the survival rate of the sockets was 94%.

 Example 5 (control). Altai redcurrant cuttings were prepared and planted in humus in the usual manner. The survival rate of cuttings was 72%.

 Example 6. Prepared fertilizer analogously to example 4. Cuttings of red currant varieties "Altai" planted in a mixture of humus and 10% of the resulting fertilizer. The survival rate of cuttings was 96%.

 Example 7. Prepared fertilizer according to example 4. The test object was young apple trees (8-10 years), which are traditionally fertilized with nitrogen-phosphorus-potassium fertilizer. Under half the apple trees, the fertilizer prepared according to Example 2 was additionally added during the spring period 3 times in the amount of 2 kg under the apple tree. The average yield of control trees was 235 kg, and experimental, fertilized with additionally prepared fertilizer - 315 kg. The increase in fruit yield was 34%.

 Example 8. Prepared bushes of tomato varieties "White filling" in the amount of 20 bushes. To fertilize 10 bushes, compost was used in the amount of 1 kg per bush, and to fertilize the other 10 bushes, 1 kg of fertilizer was used, obtained mainly according to Example 2, but instead of the manure of farm animals processed by microbiological fermentation, it contained the same amount of processed microbiological fermentation bird droppings, the active biomass of microorganisms was used in the form of a dry powder in an amount of 10 g, and crushed races were used as an organic component up to a ton of finished product. The control was carried out by maturity and yield. The control bushes had a yield of 42 kg, and the experimental ones - 58 kg (the difference was 38%), and the experimental ones matured 2 weeks earlier.

 Example 9. In a control plot of 1 hectare when growing wheat, fertilizer used compost containing 50% manure and 50% peat in an amount of 1 ton. In a test plot of 1 ha when growing the same wheat variety, bioorganineral fertilizer was applied in the amount of 1 t, moreover, this fertilizer contained 600 kg of farm animal manure processed by microbiological fermentation, water-soluble salts of mono-, divalent cations and inorganic acids containing potassium, phosphorus and az in the bound form from, 100 kg, active biomass taken in the form of paste, nitrogen-fixing microorganisms and microorganisms that decompose potassium and phosphorus compounds (in terms of a.s. century) 20 g, water-soluble salt of molybdenum (in terms of molybdenum) in an amount of 10 g and a water-soluble salt of boron (in terms of boron) 20 g, as well as an organic component containing peat and sawdust in equal proportions, up to 1 ton of the finished product. At the control plot, 32 centners of wheat were harvested, and at the experimental plot, 43 centners (excess by 34%).

 The given examples confirm the effectiveness of the use of fertilizers in the cultivation of fruit crops, as well as agricultural and vegetable crops.

Claims (2)

1. Bioorganineral fertilizer containing biological, mineral, organic components and microelements, characterized in that as a mineral component it contains water-soluble salts of mono-, divalent cations and inorganic acids containing potassium, phosphorus and nitrogen in bound form as a biological component - manure of farm animals or bird droppings processed by microbiological fermentation and the active biomass of nitrogen-fixing microorganisms and microorganisms that decompose soy Inonii containing potassium and phosphorus and trace elements are used as molybdenum and boron, and further comprises a sodium salt of gibberellic acids at the following contents of ingredients, kg per 1 ton of finished product:
Manure of farm animals processed by microbiological fermentation or bird droppings - 2 • 10 ² - 8 • 10 ²
Water-soluble salts of mono-, divalent cations and inorganic acids containing potassium, phosphorus and nitrogen in a bound form - 2 • 10 ¹ - 1 • 10 ²
Active biomass of nitrogen-fixing microorganisms and microorganisms decomposing compounds containing potassium and phosphorus (in terms of a.v. century) - 2 • 10 ^-3 - 2 • 10 ^-2
Gibberellic acid sodium salt - 5 • 10 ^-5 - 5 • 10 ^-4
Water-soluble salt of molybdenum (in terms of molybdenum) - 5 • 10 ^-3 - 5 • 10 ^-2
Water-soluble salt of boron (in terms of boron) - 3 • 10 ^-3 - 3 • 10 ^-2
Organic Ingredient - Else
2. The fertilizer according to claim 1, characterized in that the active biomass is introduced into the fertilizer in the form of a suspension, or paste, or in the form of a dry active powder.  3. Fertilizer according to claim 1, characterized in that peat and / or sawdust and / or processing waste of plant agricultural products are used as the organic component.