RU2286981C2 - Method for preparing biohumus-base combined fertilizing soil - Google Patents

Abstract

FIELD: fertilizers, agricultural biotechnology.

SUBSTANCE: method involves vermicomposting of organic waste by using hybrid of red California worm with earthworm of the Kuban natural population taken in the amount 10⁴ worms per m². Agricultural animal manure neutralized preliminary to pH 7-8 is used as organic waste. Vermicomposting process is carried out for 2-3 months at temperature 16-32°C under natural conditions, and after separation of worms from biohumus the strain Bacillus megaterium var. phosphaticum and the strain Agrobacterium radiobacter are added. Invention provides expanding assortment of microbiological fertilizers, enhancing their biological activity, decreasing material consumptions and decreasing time for preparing the preparation.

EFFECT: improved preparing method.

2 tbl, 4 ex

Description

The invention relates to agricultural biotechnology, in particular to a technology for producing soil for cultivation.

In recent years, vermicompost has been increasingly used in agriculture, a product of vermicomposting various organic wastes of industrial and agricultural production by a specially bred race of earthworms. Biohumus contains humic and fulvic acids, macro- and microelements, amino acids and gibberellins and other biologically active substances in a form accessible to plants. Therefore, the use of biohumus in itself increases the yield of agricultural crops and increases soil fertility.

A known method of disposing of organic waste in vermicompost involves preparing a substrate by mixing components, one of which is animal waste, introducing worms and / or their cocoons into it, laying the substrate in a box or ridges and composting at a humidity of 65-80% and aeration, separation worms from biohumus. As the main component, osprey is introduced into the substrate, which is a waste product of cardboard production, in an amount of 20-80% of the total mass of the substrate. As animal waste, cattle manure and / or pig and bird droppings were used, and worms of the species Eisenia foetida were used in the amount of 15-25 thousand animals per 1 m ² . At a low nitrogen content in the substrate, after mixing the components, nitrogen supplements of mineral fertilizers are introduced in the form of urea in an amount of not more than 5% of the total mass of the substrate with the simultaneous addition of limestone flour in an amount that ensures the pH of the finished substrate is not more than 8 (US Pat. RF No. 2057743, C. C 05 F 3/06, 04/10/1996).

However, this method has some disadvantages. The introduction of osprey (cardboard production waste) is not always possible due to the lack of raw materials. In addition, the wide range of its input does not allow standardizing the process of vermicomposting, since the osprey fraction affects the activity of worms. It is doubtful that urea can provide the claimed effect. In addition, as in the aforementioned analogue, it is unlikely that the biohumus obtained in this way would include the necessary number of beneficial microorganisms, including those capable of nitrogen fixation and increase the assimilation of phosphorus.

Closest to the claimed method is a method of producing bio-fertilizer, which consists in obtaining vermicompost by vermicomposting agricultural and industrial waste using earthworms, separating vermicompost from the worms and drying it out, and from the earthworms, Obolensky hybrid worms obtained by crossing Red California hybrid "with the Russian population of earthworms Eisenia foetida, while vermicomposting is carried out at a temperature of 16-24 ° C for 4-6 months in, resulting in making vermicompost microorganisms having fungicidal properties. In the method, microorganisms having fungicidal activity are introduced after separation of the worms or after ripening of vermicompost, in addition, they use a strain of bacteria Bacillus subtilis IPM-215 in concentrations of 1 · 10 ⁹ -1 · 10 ¹² spores per 1 kg of vermicompost or mycophilous culture Trichoderma viride Pers ex SFGray 16 in concentrations of 1 · 10 ⁴ -1 · 10 ⁸ colony forming units per 1 kg of vermicompost (US Pat. RF No. 2125549, class C 05 F 11/08, 1999, bull. No. 3, prototype) .

However, this method has several significant disadvantages. Firstly, the use of this hybrid does not allow to everywhere receive high-quality biohumus, since the climatic conditions of our country are very diverse. Secondly, the possibility of using this technology in the southern regions of Russia is doubtful, since the indicated temperature range does not allow cultivation of this hybrid in the warm months, and the cultivation time (4-6 months) does not allow to obtain a sufficient amount of vermicompost. In addition, the lack of nitrogen and available phosphorus in many agrolandscapes requires additional nitrogen and phosphorus nutrition, which the proposed drug cannot provide.

Known methods do not allow to obtain a biological product with a high titer of beneficial microorganisms and having combined nitrogen-fixing and phosphorolytic activities.

The technical solution to the problem is to expand the range of soils, increase their biological activity of a combined spectrum of activity due to several strains in their composition, improve agrochemical parameters due to nutrients in biohumus, the presence of associative nitrogen-fixing and phosphorolytic activity in the drug and a high titer of beneficial microorganisms due to stimulation of each other.

The problem is achieved in that in a method for producing a combined fertilizer soil based on vermicompost, which includes obtaining vermicompost by vermicomposting organic waste using earthworms and introducing microorganisms into biohumus, moreover, farm animal manure previously neutralized to pH 7-8 is used as organic waste , and as the earthworms, a hybrid of the red California worm with the earthworms of the Kuban natural population, in which the amount of 10 ⁴ per m ² , while vermicomposting is carried out for 2-3 months at a temperature of 16-32 ° C in vivo, and after separation of the worms from vermicompost, the strain Bacillus megaterium var. phosphaticum 319 and strain Agrobacterium radiobacter 204 in the following ratios of components,%:

strain of Bacillus megaterium var. phosphaticum 319 10-90 Agrobacterium radiobacter 204 strain 90-10

The claimed method for producing a combined fertilizer soil based on biohumus differs from the prototype in the production modes of biohumus, types and combination of microorganisms used.

These differences allow us to conclude that the claimed technical solutions meet the criterion of "novelty."

The features that distinguish the claimed technical solution from the prototype are aimed at achieving the task and have not been identified in the study of patent and scientific and technical literature in this and related fields of science and technology and, therefore, meet the criterion of "inventive step".

A method of obtaining a combined fertilizer based on vermicompost is implemented as follows.

Example 1. The manure of cattle is stored in piles measuring 1 · 5 · 1.5 meters. Manure is shoveled until it reaches ambient temperature. Chalk or slaked lime is used to regulate acidity. Alkalization is carried out in layers until manure reaches a pH of 7-8. If the acidity of manure is less than 7 units, then the worms will not develop in it, which means that biohumus will not form. If the acidity of manure is more than 8 units, then the worms will not develop in it either, since this pH value is also not optimal for them, in addition, there will be an excessive consumption of the alkalizing agent, which will lead to additional costs for the preparation of the substrate for the worms. Thus, the optimum acidity of manure for the development of worms is a pH of 7.5 units.

As ringworms, a hybrid of the red California worm with earthworms of the Kuban natural population, obtained by co-cultivating a hybrid of the red California worm with the Kuban population of ringed dung worms, is used. This is due to the fact that the hybrid red California worm is very sensitive to environmental conditions and requires an optimal temperature, certain qualities of the substrate, which makes it non-technological in our conditions. At the same time, annular dung worms that live in the soil, although omnivorous, are low productive and retain an instinct for migration, which makes them an uncomfortable object for vermicomposting. Therefore, the use of adapted breed provides a sufficiently high degree of worm productivity and at the same time low susceptibility to external environmental conditions.

Ready-to-use manure is populated with worms at the rate of 10 thousand worms per 1 m ² , previously checked with the test "50 worms", which allows you to evaluate the quality of the substrate. Settlement is carried out in the evening or on a cloudy day, as the worms do not tolerate direct sunlight. Bulk with a worm-infested substrate is covered with grass on top to protect from the sun and reduce water evaporation. Bulk watered periodically, loosen the upper layer of the substrate. Vermicomposting is carried out for 2-3 months. If the composting time is less than 2 months, then the hybrid used does not recycle the substrate, which means that the yield of biohumus will be insignificant. If the composting time is more than 3 months, then the hybrid used, after processing the entire substrate, will begin to be inhibited and lose productivity, and in addition, it increases the time of the preparation of the biological product, which increases its cost. Therefore, the optimal time for cultivation of worms in the substrate is 2.5 months. The optimal cultivation of worms in the substrate is carried out at a temperature of 24 ° C. If the cultivation temperature is less than 16 ° C, then the metabolism and growth of hybrid worms slows down, which means that the efficiency of the conversion of the substrate to vermicompost will be low. If the cultivation temperature is more than 32 ° C, then the growth of vermiculture will also be low.

As a result of the growth and reproduction of worms, manure is processed into vermicompost. The worms are separated on mechanical vibrating screens, and the worms remaining on the sieve are used for the subsequent production of vermicompost from the next batch of manure. The obtained biohumus is dried in the open air to a moisture content of 60-70% and stored in piles.

Moreover, vermicompost is used simultaneously as a carrier and as a substrate for the development and reproduction of not only microorganisms with fungicidal activity, but also for nitrogen-fixing and phosphorolytic bacteria.

For sowing vermicompost, seed is used from the collection of pure crops of the Federal State Institution "Krasnodar Biocenter". Test tube with lyophilized pure culture of phosphorolytic microorganisms of the species Bacillus megaterium var. phosphaticum strain 319 is revitalized with a nutrient solution. The lively culture is inoculated into 750 ml flasks of 200-250 ml of culture medium, which is a solution of corn extract, molasses, ammonium sulfate and chalk. Then, the resulting mother liquor is seeded in 5 liter bottles containing 2.0-2.5 liters of culture medium of the same composition. A test tube with a pure culture of Agrobacterium radiobacter strain 204 is revitalized, inoculated into a nutrient medium, which is a solution of corn extract, molasses and mineral salts. Bacillus subtilis IPM-215, which has fungicidal activity, is likewise revitalized.

Thus obtained working solutions of strains of the species Bacillus subtilis IPM-215, Bacillus megaterium var. phosphaticum strain 319 and Agrobacterium radiobacter strain 204 are seeded in burtum vermicompost. In this case, the ratio of microorganisms of the species Bacillus megaterium var. phosphaticum strain 319 and Agrobacterium radiobacter strain 204. If microorganisms of the species Agrobacterium radiobacter strain 204 are less than 10%, an effective associative process of nitrogen fixation with plants will not occur. If the microorganisms of the Agrobacterium radiobacter strain 204 are more than 90%, then the ratio of the nitrogen-fixing microorganism and the phosphorolytic bacteria Bacillus megaterium var. phosphaticum strain 319 will not be optimal and effective interaction with plants of these strains will not occur, and the quality of the drug will be low. Thus, the optimal content in the preparation of representatives of the species Agrobacterium radiobacter strain 204 will be 50%. If microorganisms of the species Bacillus megaterium var. phosphaticum strain 319 is less than 10%, then the effective lysis of insoluble forms of phosphorus does not occur, and the quality of the drug will be low. If microorganisms of the species Bacillus megaterium var. phosphaticum strain 319 will be more than 90%, then the ratio of nitrogen-fixing bacteria strains and phosphorolytic microorganisms will not be optimal and the drug will not produce effective lysis of insoluble forms of phosphorus, which means its quality will be low. Thus, the optimal content in the preparation of representatives of the species Bacillus megaterium var. phosphaticum strain 319 will be 50%.

Mixing of vermicompost inoculated with beneficial microorganisms with fungicidal, nitrogen-fixing and phosphorolytic properties is carried out mechanically twice a day.

After 10-14 days, the titer of the seeded microorganisms is checked, which should increase by 2-3 orders of magnitude due to the joint growth of bacteria on vermicompost.

Further storage of soil (more than 1 month) did not reduce the total titer of beneficial microorganisms. After this time, the soil was mixed with soil for growing vegetables and used for growing seedlings.

Example 2. According to the method for producing a combined fertilizer based on biohumus according to Example 1, chicken manure with the addition of chopped straw is used as raw material for cultivating the worms.

Example 3. According to the method for producing a combined fertilizer based on biohumus according to Example 1, horse manure is used as a raw material for cultivating worms.

Example 4. According to the method for producing a combined fertilizer based on vermicompost according to Example 1, raw calf manure is used as raw material for culturing worms with the addition of chopped straw.

The results of determining the number of bacteria in 1 kg of vermicompost Agrobacterium radiobacter strain 204, Bacillus subtilis IPM-215 and Bacillus megaterium var. phosphaticum strain 319 in vermicompost of different origin are presented in table 1.

Table 1
The total number of bacteria Agrobacterium radiobacter strain 204, Bacillus subtilis IPM-215 and Bacillus megaterium var. phosphaticum strain 319 in 1 kg of vermicompost when used in vermicompost of different quality No. Option The number of bacteria Agrobacterium radiobacter strain
204, Bacillus subtilis IPM-215 and Bacillus megaterium
var. phosphaticum strain 319 in 1 kg of vermicompost one option 1 4.210 ¹² 2 option 2 8.310 ¹¹ 3 option 3 7.910 ¹¹ four option 4 6.810 ¹²

The results of laboratory tests in examples 1, 2, 3, 4 showed that regardless of the origin of livestock waste, biohumus obtained on its basis provides a high titer of nitrogen-fixing and phosphorolytic bacteria with high fungicidal activity, which is necessary to obtain high-quality combined microbiological fertilizer based on biohumus.

In addition, it should be noted that the technology of producing vermicompost is a simple process, and raw materials (organic agricultural waste) are widely available. Simultaneously with the production of vermicompost, the problem of environmental protection is also being solved, which is especially important in agricultural regions with developed livestock production.

The results of the analysis of the chemical composition of vermicompost and humus obtained from cattle manure are presented in table 2.

table 2
Chemical characteristics of vermicompost and humus (%) Name Vermicompost Humus Medium acidity 6.7 7.8 Organic matter 44.9 23.6 Humic acids 3.4 2,3 Fulvic Acids 2.2 0.6 Organic carbon 3.31 1.7 Nitrogen 3.22 1,54 Phosphorus 0.49 0.35 C: N 1,04 1.10 Electrical conductivity 12.1 3.60

As can be seen from the table, the use of biohumus allows not only to provide high concentrations of nitrogen-fixing and phosphorolytic bacteria, but also to use biohumus as a highly effective source of nutrients for plant growth (data on the chemical composition of biohumus are given in comparison with the composition of humus).

He should not forget that the use of vermicompost as a filler for the preparation obtained by the proposed method not only provides plants with beneficial microorganisms, but also is itself a source of nutrients due to vermicompost.

Thus, the method for producing a combined fertilizer soil based on biohumus not only allows one to obtain a high titer of nitrogen-fixing and phosphorolytic microorganisms and satisfactory fungicidal activity due to the presence of nutrients in it, but also this effect is provided by the simultaneous cultivation of three genera of microorganisms that can stimulate growth and development each other. In addition, the soil obtained by the proposed method will partially solve the problems of recycling livestock due to the possibility of placing small-tonnage production directly in the regions.

Claims (1)

A method of producing a combined fertilizer soil based on vermicompost, comprising obtaining vermicompost by vermicomposting organic waste using earthworms and introducing microorganisms into the biohumus, characterized in that farm animal manure previously neutralized to pH 7-8 is used as organic waste, and as earthworms use hybrid Californian red worm with earthworms Kuban natural population at 10 ⁴ per 1 m ^2, while in rmikompostirovanie performed for 2-3 months at 16-32 ° C in vivo, and after separating worms from vermicompost introduced strain Bacillus megaterium var. phosphaticum 319 and strain Agrobacterium radiobacter 204 in the following ratios of components,%: Strain Bacillus megaterium var. phosphaticum 319 10-90 Agrobacterium radiobacter 204 strain 90-10