RU2063435C1 - Strain of fungus penicillium species used for water surface treatment from floating oil - Google Patents

Abstract

FIELD: microbiology, ecology. SUBSTANCE: method involves the use of micromycetes strain Penicillium species for treatment of aqueous surface from floating oil. EFFECT: enhanced effectiveness of strain proposed. 1 tbl

Description

 The invention relates to microbiology and relates to the production of a strain of micromycete, suitable for cleaning the surface of water from floating oil.

Known Strain Pseudomonas putida [1] with high characteristics for biodegradation of oil and oil products. However, the disadvantage of this strain is that it grows and utilizes oil only at a relatively high temperature (28-42 ^o C). On the 30th day, the strain of Pseudomonas putida utilizes 63-74 oil.

 The objective of the invention is to obtain a producer strain having the ability to purify fresh and sea water from surface oil pollution in a wide temperature range.

 The proposed strain of Penicillium sp. isolated from soils contaminated with oil and oil products of the Serpukhov district of the Moscow region. The strain was deposited by the Central collection of microorganisms of the State concern "Biopreparat", the collection number of CCMK "B" CCMFn-37B.

 The proposed strain of Penicillium sp. non-toxic, capable of self-reproduction, develops from seed on a mineral medium, uses petroleum hydrocarbons as carbon sources, stays on the surface of water for a long time, forms an easily removable film. The micromycete culture successfully combines the properties of a biodestructor and a biosorbent of oil, which gives a high total effect when cleaning water from oil pollution (from 70 to 98).

 The resulting strain is characterized by the following features.

 Morphological signs.

 On capex-Dox agar with sucrose, after 48 hours, young colonies with well-developed white aerial mycelium appear. Colonies reach a size of 6-8 mm in diameter and have a developed substrate mycelium.

 On carrot agar, large colonies develop up to 10 mm in diameter with developed aerial mild mycelium of light marsh color. The mycelium is segmented, spore-bearing animals are arranged in panicles formed by single-tier sterigms, conidia are spherical and spherical, greenish in color.

 On meat and peptone broth it grows, forming a dense film on the surface, leaving the broth transparent.

 Physiological and biochemical characteristics.

 Strain Penicillium sp. consumes sugar, glucose, does not ferment lactose, rannose, arabinose and galactose.

 It develops in meat and peptone broth containing 2.5 and 6.5 NaCl.

 It does not have proteolytic activity, does not thin the gelatin.

 Synthesizes amylase and hydrolyzes starch (hydrolysis zone of 10 mm on the third day).

 It has catalase activity.

 Absorbs oil hydrocarbons.

 In a liquid mineral medium it develops in the form of a strong film located at the interface between the water and oil phases.

Storage conditions: in sterile soil under liquid paraffin at 4 ^o C.

 The strain of the fungus Penicillium sp, is able to grow on aqueous mineral media containing oil as a carbon source. Assimilating a hydrocarbon substrate, micromycete forms a massive mycelium, located at the interface of two phases: water-oil, in the form of a strong film. In the process of micromycete growth, oil that is initially located on the surface (film thickness 0.5-60 mm) undergoes the following changes: light fractions evaporate, some hydrocarbons undergo biodegradation, are absorbed by micromycete, and are used to build mycelium. The remaining oil is absorbed by the mycelium, sorbed in its cavities and firmly held in this biological sorbent. Mushroom film impregnated with oil - biosorbent - is mechanically removed from the surface of the water, leaving a liquid practically free of oil.

Repeated experiments conducted in the laboratory with this micromycete revealed the following patterns. At a temperature of 10 to 30 ^o C on the surface of fresh or sea water contaminated with an oil slick, a thickness of 0.5 to 60 mm, with a pollution level of 1 5 of the supports within 7-21 days, a film sorbing oil develops. Using the gravimetric method of chemical extraction with chloroform, it was revealed that during the growth of the micromycete it is utilized to 11 evaporates and is lost during manipulations to 22 sorbed to 80 from the initial level of contamination.

As a result, oil pollution of the water surface is eliminated at 72-98
The tests were carried out at a temperature of 10 and 25 ^o C in tap and seawater, containing as mineral base (MH ₄ ) ₂ NRA ₄ at a concentration of 0.35 g / L.

 EXAMPLE 1

 Strain Penicillium sp. grown in 100 ml cones containing 25 ml of sterile medium. An oil film about 0.5 mm thick was layered on the surface of the water, which was 1 by weight.

The oil was pre-sterilized. Then the medium was infected with micromycete spores at a final concentration of 10 ⁷ supports / ml. Uninfected flasks were used as a control. The experiment was carried out at a temperature of 25 and 10 ^o C in stationary conditions.

At the end of the experiment, the quantitative contribution of each of the processes described above (biosorption, biodegradation, natural losses) was evaluated by the method of oil extraction with chloroform, followed by weighing of the dry residue. The results of winding the surface of the water from the oil slick are shown in the table. The most effective purification of 87.8 was achieved in fresh water at 25 ^o With a decrease in temperature to 10 ^o C, the micromycete development process lengthened, and the purification efficiency decreased to 76.4%. Regarding the purification of sea water, the Penicillium sp. cleaned oil pollution both at 25 ^o C and at 10 ^o C with an efficiency of 72.4% and 79.1%, respectively. The value of the biosorption coefficient ranged from 9.0 to 18.4.

 EXAMPLE 2

Strain Penicllium sp. grown under conditions simulating an oil spill, namely in a desiccator containing 0.75 L of non-sterile fresh tap water contaminated with an oil film with an area of 153 cm ² and a thickness of 1.5 mm. Oil pollution in a weight ratio of 1.5 The medium was infected with spores at the rate of 10 ⁷ spores / cm ² . Incubation was carried out at 25 ^o C for 45 days. At the end of the experiment, the biosorbent film was mechanically removed from the surface of the water and the efficiency of oil pollution purification was determined using the chloroform extraction method. The results of the experiment are presented in the table. The cleaning efficiency was 98.6. The biosorption coefficient, i.e. the amount of oil collected per unit dry weight of the biosorbent was 34.3.

 Comparison of the proposed micromycate strain with known bacterial preparations (for example, with Putidul) is difficult due to the different principles underlying the mechanism of cleaning water surfaces from oil pollution in mushroom and bacterial preparations. A bacterial preparation purifies oil pollution only due to the biochemical oxidation of the oil substrate i.e. in the process of biodegradation. The action of micromycete is based on two interrelated processes, namely, the process of biodegradation of oil and the formation of the body of the fungus associated with it and the process of biosorption of almost all remaining unoxidized oil. If we compare the bacterial and fungal strains in terms of biodegradation, the first is superior to the second (by 30-40). However, if we compare the preparation by the final result, i.e., by the efficiency of cleaning the water surface from oil pollution, the mushroom strain is more effective and gives excellent (up to 99 cleaning) results.

 Thus, the proposed biosorbent based on the strain of micromycete Penicllium sp. able to efficiently dispose and collect floating oil from water surfaces.

 The proposed strain is promising for obtaining on its basis a biosorbent suitable for purification from floating oil in sedimentation tanks, treatment facilities and during oil spills on the surface of fresh and marine bodies of water. TTT1

Claims (1)

 The strain of the fungus Penicillium species CCM Fn 37B, used to clean the surface of the water from floating oil.

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