RU2052440C1 - Method of utilization of mycelial waste in antibiotic industry - Google Patents

Abstract

FIELD: medicinal industry. SUBSTANCE: mycelial waste containing 5-25% organic additive were treated with dung worm Eisenia foetida. Mycelium waste utilized with worm and no containing antibiotics were obtained. Mycelial vericompost is used in agriculture. EFFECT: improved method of mycelial waste utilization.

Description

 The invention relates to methods for the disposal of industrial waste, namely the mycelial waste of the antibiotic industry.

 In the production of biosynthetic antibiotics, one of the wastes causing the greatest number of problems during disposal is mycelial wastes.

 The spent mycelium is the spent microbial biomass of antibiotic producers (fungal biomass, actinomycetes, bacterial biomass), which differs from each other depending on the type of antibiotic and the method of processing the culture fluid before filtration. In addition to producer biomass, mycelium may contain toxic substances such as formaldehyde, acids, cetazole, antibiotics, as well as various excipients (calcium phosphate, aluminum hydroxide, calcium sulfate, iron hexacyanoferrate, wood flour).

 In the production of antibiotics per 1 ton of the target product, about 10 tons of mycelial waste are generated. The use of mycelial waste in the construction industry is known. However, in this case, pre-treated mycelial waste is used, which is economically disadvantageous. Mycelial waste is a rich source of protein substances, carbohydrates, fats, which makes attractive the use of mycelial waste in agriculture. However, the direct use of mycelial wastes from the production of antibiotics in agriculture is difficult due to the residual content of antibiotics, which in various industries ranges from 500 to 20,000 activity units per 1 g of dry matter. When feeding such a mycelium to animals and birds, the accumulation of an antibiotic in organs and tissues is possible. The use of such meat in human nutrition can cause allergic diseases, disruption of the microflora of the digestive tract (the occurrence of resistant bacteria) and other side effects. With the direct introduction of mycelial wastes into the soil, their influence on the soil microflora and the possible emergence and spread of resistant bacteria of a pathogenic nature are not ruled out. For the same reason, waste containing antibiotics is not suitable for the production of organic fertilizers and composts.

It is known to use dung worms for the disposal of domestic and industrial waste in order to obtain fertilizer. The method consists in adding compost containing dung worms to household waste after fermentation for several months [1]
The use of manure worms for the disposal of mycelial waste from the antibiotic industry is not described in the literature.

 The high residual content of antibiotic, biosynthesis intermediates and the breakdown of antibiotics in mycelial waste did not allow to obviously transfer the well-known technique (disposal of organic waste using worms) for the disposal of mycelial waste.

It is known that the mycelial wastes of the production of tetracycline hydrochloride are obtained by treating the culture liquid with hydrochloric acid to a pH of 1.5-2.0, yellow blood salt, followed by filtration on a vacuum drum filter with an alluvial layer of wood flour. The mycelium on the filter is washed with water acidified to pH 1.7-1.9, dried to 60-70% humidity and transferred for use in agriculture as an additive to animal feed or buried in a landfill [2]
The disadvantage of this method of disposal of mycelial waste is the presence of an antibiotic in the waste.

 The aim of the invention is to obtain waste that does not contain antibiotics. These wastes can be used as fertilizers.

 The goal is achieved in that the treatment of mycelial waste with 5-25% of the organic additive is carried out using the dung worm Eisenia foetida. Cow or pig manure, a mixture of manure and straw, sawdust, household waste, foliage of trees, etc. can be used as an organic additive.

 It turned out that when antibiotics were added to the mycelial waste products of the industry, 5-25% of organic additives, the complete utilization of antibiotics from waste. When using less (than 5%) of the organic additive of manure, partly dies in the mycelial waste (and does not utilize the entire antibiotic), when using more (25%) of the organic additive, the antibiotic is completely utilized, but the amount of mycelial waste that is necessary recycle.

 A method of disposing of the mycelial waste from the antibiotic industry consists in launching the Eisenia foetida worm into the mixture of mycelial waste with 5-25% organic additives (cow manure, pig manure, sawdust, a mixture of cow manure with straw, etc.) 50-200 pcs per 1 kg of the mixture), after a certain period (20-30 days), the worms migrate to the upper layer up to 10 cm thick, which can be removed and used for re-seeding the next batch of mycelial waste.

 It was established that after triple passaging the culture of the dung worm did not undergo changes. Mycelium waste disposed of by the worms does not contain an antibiotic. Such waste can be used as fertilizer in agriculture or sent for deposit without harming the environment. In its chemical composition, the mycelial vermicompost is superior to manure. Thus, the humus content in manure is 8.9% in vermicompost based on penicillin 11.7% based on riboxin 22.7% A high percentage of humus in compost also provided an increase in the content of total forms of nitrogen and phosphorus. When conducting microfield experiments with radishes and onions, it was found that the introduction of mycelial vermicompost increases the yield of dry mass of onions and radishes compared with the introduction of manure. Vermicompost increases the content of total nitrogen by 1.5-2 times in comparison with the effect of manure. At the same time, the nitrate content when using mycelial vermicompost was lower. Products obtained on mycelial vermicomposts turned out to be environmentally friendly.

 Example 1. 1 kg of Mycelial waste from oleandomycin production containing 800 units / g of antibiotic is mixed with 0.12 kg of cow manure and 0.13 kg of straw (mycelial waste with 25% of the organic component). The resulting mixture is released 80 individuals of the red California worm Eisenia foetida andrei. After 30 days, the antibiotic is absent in the lower layer of the mixture, and in the upper layer the amount of antibiotic decreased by 1/2 of the initial amount. The worms migrate to the upper layer, the thickness of which was up to 6 cm (1/20 of the total mass).

 PRI me R 2. 100 kg of Mycelium production of tetracycline containing 4000 units / g of antibiotic is mixed with 5 kg of cattle manure and 0.1 kg of straw (mycelium with 5.1% organic additives).

 10,000 individuals of Eisenia foetida worms are introduced into the mixture. After 28 days, the antibiotic is absent in the mixture in the lower layer up to 18 cm thick and the antibiotic in the upper layer up to 10 cm thick is up to 1/2 of the initial amount, the worms migrate to the upper layer, which is removed and used for seeding the next batch of mycelial waste. Waste from the lower layer is sent to agriculture for deposit.

 PRI me R 3. 10 kg of Mycelium griseofulvin containing 500 μg / g of antibiotic, mixed with 0.5 kg of sawdust (mycelium with 5% organic additives), populate 1600 individuals Eisenia foetida worms. After 25 days, there is no antibiotic in the lower part of the mixture 12 cm thick; in the upper part of the mixture up to 8 cm thick, the presence of the antibiotic decreased to 1/3 of the initial amount. The top layer of the mixture, together with the worms, was used to inoculate the next batch of mycelial waste. The bottom layer of the mixture was sent to agriculture for deposit.

 PRI me R 4. In 100 kg of mycelial waste production of fusidin containing 800 units / g of fusidine, add 100 kg of mycelial waste production of riboxin, 16 kg of cattle manure, 3 kg of fallen leaves and 3 kg of straw (mycelium with 10 % organic supplement). The resulting mixture is populated by 22,000 individuals of Eisenia foetida worms. After 23 days, fusidine and riboxin were not detected in the lower layer of the mixture 12 cm thick; in the upper layer up to 8 cm thick, the amount of fusidine and riboxin decreased by 1/2 of the initial amount, the worms migrated to the upper layer of the mixture. The upper layer of the mixture, together with the worms, was used to plant the next batch of mycelial waste; the lower layer was sent to agriculture for deposition.

 The mycelial wastes processed in this way by the antibiotic industry do not contain an antibiotic, they are soil granules that can be used in agriculture as fertilizers or sent to deposit without harming the environment.

Claims (1)

 METHOD FOR DISPOSAL OF MICELIAL WASTE OF THE INDUSTRY ANTIBIOTICS, characterized in that the mycelial waste with 5 - 25% of the organic additive is processed using the dung worm Eisenia foetida.