RU2528711C1 - Method of production of soil mixture for germination of seeds and development of seedlings - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. The method of production of soil mixture for germination of seeds and development of seedlings, which is characterised in that the biohumus is prepared by bacterial processing of moist cellulose-containing wastes, which are used as fibre waste hydrolyzate obtained using 0.5% aqueous solution of diammonium phosphate for 20-40 minutes under pressure at a temperature of 120°C, or fibre waste, or a combination of fibre waste with crushed bark or crushed sawdust, probiotic feed additive Ferm-KM and the preparation Gliokladin™, and in the case of use of the fibre waste hydrolyzate for bacterial processing the dry fodder yeast Saccharomyces cerevisiae is additionally used, the process is carried out during a week at a temperature of 25-30°C, and the bacterial processing is carried out for a month at a temperature of 25-30°C and regular turning the mass, and the resulting product is subjected to vermicomposting with red Californian worm for 2-3 months, after that the resulting biohumus is dried and mixed with peat in a ratio of 10-30% of biohumus and 90-70% of peat, respectively.

EFFECT: invention enables to increase the intensity of processes of bacterial processing of cellulose-containing wastes, to improve the quality of biohumus and the desired product.

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Description

The invention relates to agricultural biotechnology, to the field of processing cellulose-containing waste using vermiculture, and can be used in farms, agricultural production to obtain vermicomposts enriched with vermicompost or vermicomposts and soil mixtures based on peat and vermicompost for growing seeds and plant seedlings.

A known method of preparing a combined microbiological fertilizer based on vermicompost by vermicomposting organic waste using a hybrid of red California worm with earthworms of the Kuban natural population in the amount of 10 ⁴ worms per m ² . As organic waste, farm animal manure is used, previously neutralized to a pH of 7-8. Vermicomposting is carried out for 2-3 months at a temperature of 16-32 ° C under natural conditions, and after separation of the worms from vermicompost it is dried to a moisture content of 50-60%, packaged in bags made of polypropylene, in which they are autoclaved for 45-75 minutes at 0.8-1.2 atm, and microorganisms belonging to the species of Bacillus megaterium var. phosphaticum, Rhizobium japonicum, Agrobacterium radiobacter. The invention allows to expand the range of microbiological fertilizers, to increase their biological activity. RU 2286977 C2, 11.20.2006.

A known method for producing a bacterized fertilizer, comprising a humic containing base from biohumus and a bacterial supplement having fungicidal activity, selected from the group of bacteria Bacillus subtilis, Bacillus cereus, Bacillus polymyxa with viability in an ammonia medium with a pH of at least 9, in an amount of 7.5 ^· 10 ⁴ -7.5 ^· 10 ⁸ cells / g of humic base. The fertilizer additionally contains ammonia water or urea, and peat as a humic-containing base. RU 2186049 C2, C05F 11/08, 07/27/2002.

A known method of producing bio-fertilizer, which consists in obtaining vermicompost by vermicomposting of agricultural and industrial waste using earthworms "Obolensky hybrid", obtained by crossing the "Red California hybrid" with the Russian population of earthworms Eisenia foetida, vermicomposting is carried out at 16-24 ° C for 4-6 months and then contribute microorganisms with fungicidal activity. RU 2125549 C1, C05F 11/08, 01/27/1999.

A known method of producing vermicompost using a substrate based on organic agricultural waste and its vermicompost using the industrial line of earthworms "Red California hybrid" and the culture of mycophilic cellulosolytic fungus Trichoderma viride. A mixture of peat and litter straw manure of cattle in a ratio of 1: 4 by weight and humidity of 75-80% is used as a substrate, and a culture of mycophilic cellulosolytic fungus Trichoderma viride is applied on boiled wheat grain in an amount of 2% of the substrate weight 2 weeks before launch of worms in the amount of 40 sexually mature individuals (30-35 g) per 1 kg of substrate. Vermicomposting is carried out in a rack culture for 3-4 weeks at a temperature of 20-25 ° C. EFFECT: invention makes it possible to obtain biohumus with high protective properties and high growth-promoting activity. RU 2286971 C2, C05F 11/08, 11/10/2006.

The objective of the invention was to obtain a soil mixture for growing seeds and seedlings of plants based on peat and vermicompost obtained by bacterial treatment of moistened cellulose-containing wastes, such as osprey - sewage sludge from pulp and paper production, or osprey in combination with crushed bark (skimmer) or chopped sawdust , or osprey hydrolyzate, Ferm-KM probiotic feed additive and Gliocladin ™. Ferm-KM probiotic feed additive (RU 2412612 C1, A23K 1/00, 02/27/2011, produced by STC BIO LLC according to TU 9291-002-54664067-2003-12) is applied in the amount of 100 g per 10 l of cellulose-containing waste with humidity fifty%. Association microorganisms probiotic feed additive Feedlot-CM is represented Bacillus subtilis VKPM B-8130, Bacillus subtilis VKPM B-2984, Bacillus subtilis VKPM B-4099 and Bacillus licheniformis VKPM B-4162 and the preparation Laktovit containing organisms: Streptococcus thermophilus, Lactobacillus acidophilus, Bifidobacterium bifidum and / or Bifidobacterium longum and / or Bifidobacterium adolescentis, Lactococcus lactis subsp. cremoris or Lactococcus lactis subsp, Lactobacillus casei, Lactobacillus delbrueckii subsp. bulgaricus taken in a ratio of 6: 6: 1: 13: 0.8, respectively. The preparation Gliokladin ™ (Trichoderma harziannum VIZR-18 trichoderma, titer 10 ⁹ CFU / g), manufactured by CJSC Agrobiotechnology according to TU 9291-010-59733301-03, is applied in the form of crushed 30-60 tablets (2.5-5.0 g) per 10 l cellulose-containing waste with a moisture content of 50%.

The technical result of the claimed invention is to increase the intensity of the processes of bacterial treatment of cellulose-containing waste, improve the quality of vermicompost and the target product, which reduces the germination time of seeds of cucumber, zucchini, pine, increase the percentage of sprouted seeds, increase the mass of seedlings, including the mass of the root system and aerial parts of plants by 30-70%.

The technical result is achieved due to the fact that vermicompost is obtained by bacterial treatment of moistened cellulose-containing waste with probiotic feed additive Ferm-KM and Gliocladin ™. As a cellulose-containing waste, use osprey, or a combination of osprey with crushed bark in a ratio of 70:30 or crushed sawdust in a ratio of 70:30, or an osprey hydrolyzate obtained using a 0.5% aqueous solution of diammonium phosphate for 20-40 minutes under pressure at a temperature of 120 ° C. It is significant that in the case of using osprey hydrolyzate for bacterial treatment, dry fodder Saccharomyces cerevisiae yeast is additionally used in the ratio of 70 g Ferm-KM, 5.0 g Gliocladin ™ and 25 g Saccharomyces serevisiae dry baker's yeast. Stirred and left for a week at a temperature of 25-30 ° C, and in the case of using osprey or a combination of osprey with chopped bark or chopped sawdust, bacterial treatment is carried out in the presence of urea and dry mullein, taken in a ratio of 1:25 for a month at a temperature of 25 -30 ° C and regular tedding of the mass. Then, the product obtained by any of the above methods is subjected to vermicomposting by a California worm using standard technology. In this case, it is possible to use, preferably, Eisenia foetida (Californian red worm), Aporrectodea caliginosa, Lumbricus terrestris and others. The process of vermicomposting is carried out, ensuring the maintenance of the optimum temperature in the range of 20-23 ° C and the humidity of the processed material layer in the range of 70-80% in within 2-3 months. The vermicomposting vermicompost is dried to a moisture content of 8-10% and mixed with peat in an amount of 10-30% vermicompost and, accordingly, 90-70% peat to obtain a soil mixture for seed germination and seedling development.

The effectiveness of the proposed method for producing a soil mixture for seed germination and seedling development is confirmed by examples.

Example 1. Pine seedlings were grown on a soil mixture consisting of 80%> peat and 20% vermicompost obtained by combined bacterial treatment of a mixture containing 70% osprey with 30% crushed bark, followed by vermicomposting, which doubled the average weight of pine seedling and by 45% increases the mass of the root system.

Example 2. Growing pine seedlings on a soil mixture consisting of 70% peat and 30% vermicompost obtained by combined bacterial processing of a mixture containing 70% osprey and 30% softwood sawdust, followed by vermicomposting of the resulting product, allowed to obtain 60% more mass pine seedlings and 20% more mass of the root system.

The invention is illustrated by examples of soil preparation.

Example 3

5 L of osprey - sewage sludge from the pulp and paper industry of Syassky Pulp and Paper Mill is hydrolyzed in 5 l of a 0.5% aqueous solution of diammonium phosphate under pressure at a temperature of 120 ° C for 40 minutes. 10 l of the obtained hydrolyzate are cooled to 30 ° C, 70 g of probiotic feed supplement Ferm-KM, 60 crushed tablets of Gliocladin ™ and 25 g of dry fodder yeast Saccharomyces cerevisiae are added. Bacterial treatment is carried out for a week at a temperature of 25 ° C. The resulting wet product is then vermicomposted with a California red worm using standard technology. Vermiculture Eisenia foetida is introduced at the rate of 200 individuals per 1 m ^{3 of the} processed material and the process of vermicomposting is carried out, ensuring the maintenance of the optimum temperature in the range of 20-23 ° C and the humidity of the layer of the processed material in the range of 70-80% and a pH value not exceeding 7 , 6, for 2 months. The vermicomposted biohumus is dried to an air-dry state and introduced into peat as a substrate for seed germination and seedling development in the ratio of 20-30% of the substrate and 80-70% of peat to obtain a soil mixture.

Example 4. To 10 l of sediment of primary sedimentation tanks (osprey) of Syassky PPM add crushed bark or sawdust in the ratio of 70% osprey and 30% bark or sawdust. 100 g of probiotic feed supplement Ferm-KM, 40 crushed tablets of the preparation Gliokladin ™, 6 g of urea and 150 g of dry mullein are introduced and bacterial treatment is carried out for a month at a temperature of 25-28 ° C with regular tedding. The resulting product is vermicomposted by a California red worm using standard technology. After that, vermicomposting vermicompost is dried and introduced into peat - a substrate for seed germination and seedling development by mixing 10-30% of vermicompost and 90-70% of peat.

Thus, the method of producing a soil mixture for seeds and seedlings of plants based on vermicomposting vermicompost allows you to get a soil mixture with a high titer of useful soil microorganisms that can stimulate the growth and development of each other, to increase the percentage of sprouted seeds, increase the mass of seedlings, including mass root system and aerial parts of plants by 30-70%.

The resulting soil mixture is able to activate plants and their seeds due to the presence of nutrients and accelerating substances of the vermicompost itself, thereby expanding the range of soil mixture.

Claims (1)

A method of producing a soil mixture for seed germination and seedling development, characterized in that biohumus is prepared by bacterial treatment of moistened cellulose-containing waste, which is used as an osprey hydrolyzate obtained with a 0.5% aqueous solution of diammonium phosphate for 20-40 minutes under pressure at a temperature of 120 ° C, or osprey, or a combination of osprey with crushed bark or chopped sawdust, Ferm-KM probiotic feed additive and Gliocladin ™ preparation, and in case of using hydro Saccharomyces cerevisiae dry fodder yeast is additionally used for bacterial treatment from osprey, the process is carried out for a week at a temperature of 25-30 ° C, and bacterial treatment of osprey or a combination of osprey with crushed bark or chopped sawdust is carried out in the presence of urea and dry mullein, taken in the ratio 1:25, while the bacterial treatment is carried out for a month at a temperature of 25-30 ° C and regular tedding of the mass, and the resulting product is vermicomposted by a red California worm for 2-3 months. After which the obtained vermicompost is dried and mixed with peat in the ratio of 10-30% vermicompost and, accordingly, 90-70% of peat.