RU2127310C1 - Consortium of strains of microorganism-destructors: aeromonas species, alcaligenes denitrificans, arthrobacter species used for treatment of soil, ground, water from petroleum, petroleum products and mazut residues - Google Patents

Abstract

FIELD: biotechnology, technical microbiology. SUBSTANCE: consortium is isolated from soils of littoral zone of South Far East. Consortium is natural associations of petroleum-oxidizing microorganisms. Oxidative activity of consortium (by the end oxidation product) is 2041 mg CO₂ for 30 days. Advantage of this consortium is a capability to grow on depleted nutrient medium and to oxidize petroleum and petroleum products at high rate. This ensures to use this consortium for biological treatment of soils, grounds and waters polluted with petroleum, petroleum products and mazut residues. EFFECT: enhanced effectiveness of consortium. 1 ex

Description

 The invention relates to biotechnology and can be used in the biological treatment of oil pollution of soils, soil and water in oil depots, oil fields, industrial enterprises and other facilities.

 The purpose of the invention is to obtain a consortium of microorganisms - oil destructors for cleaning soils, soil and water from oil pollution and residual contamination.

 To achieve this goal, a consortium of destructive microorganisms: Aeromonas species KMM NF 5-2 (KMM NF - a collection of marine oil-oxidizing microorganisms): Aeromonas species was isolated from soils chronically contaminated with oil products from the coastal ecosystem of the south of the Far East (Sea trade port of Nakhodka) KMM NF 5-9; Alcaligenes denitrificans KMM NF 5-1; Alcaligenes denitrificans KMM NF 5-11; Arthrobacter species KMM NF 5-7. These are natural associations of oil-oxidizing microorganisms that have formed in the soil as a result of prolonged exposure to oil products.

 The isolated strains of microorganisms were deposited in the All-Russian collection of microorganisms of the Institute of Biochemistry and Physiology of Microorganisms of the Russian Academy of Sciences, where they were assigned numbers: VKM B - 2047D, VKM B - 2048D, VKM B - 2049D, VKM B - 2050D, VKM B - 2051D, respectively.

A consortium of bacterial strains is taken in quantities:
Aeromonas species strain KMM NF 5-2 - 30%
Aeromonas species strain KMM NF 5-9 - 30%
Alcaligenes denitrificans strain KMM NF 5-1 - 15%
Alcaligenes denitrificans strain KMM NF 5-11 - 15%
Arthrobacter species strain KMM NF 5-7 - 10%
Characterization of the strain Aeromonas species KMM NF 5-2.

 Morphological and cultural characteristics. Sticks with rounded ends, almost oval, size 0.8 x 1.5 mmk, movable, gram-negative, saprophyte.

Physiological and biochemical properties. Chemorganotrophs. Metabolism of the respiratory and fermentative, oxidase - and catalase-positive. Casein, gelatin, starch are hydrolyzed. Utilize glucose, fructose, maltose, trehalose. Sorbose, xylose are not fermented. Capable of oxidizing petroleum hydrocarbons. Growth temperature 4 - 30 ^o C, pH 7.0 - 7.5, not pathogenic.

 Characterization of the strain Aeromonas species KMM NF 5-9.

 Morphological and cultural characteristics. Sticks with rounded ends, size 0.8 x 1.5 mmk, movable, gram-negative, saprophyte.

Physiological and biochemical properties. Chemorganotrophs. Metabolism is respiratory and fermentative. Oxidase and catalase positive. Casein, gelatin, starch are hydrolyzed. Utilize glucose, fructose, maltose, trehalose. Sorbose, xylose are not fermented. Capable of oxidizing petroleum hydrocarbons. Growth temperature 4 - 30 ^o C, pH 7.0 - 7.5, not pathogenic.

 Characterization of the strain Alcaligenes denitrificans KMM NF 5-1.

 Morphological and cultural characteristics. Single straight sticks measuring 1.0 x 1.8 mmc, movable, milling, gram-negative. On agarized media form round, smooth, translucent convex colonies. Saprophyte.

Physiological and biochemical properties. Chemorganotrophs. Metabolism is respiratory, oxidase - and catalase-positive. Urease does not form. Starch, tween-80, gelatin is not hydrolyzed. Sorbose, raffinose, lactose, mellibiosis, trehalose are not disposed of. Capable of oxidizing petroleum hydrocarbons. Growth temperature 4 - 35 ^o C, pH 7.0 - 7.5, not pathogenic.

 Characterization of the strain Alcaligenes denitrificans KMM NF 5-11.

 Morphological and cultural characteristics. Single straight sticks measuring 0.5 x 1.2 mmk, movable, milling, gram-negative. On agarized media form small, smooth, convex mucous translucent colonies. Saprophyte.

Physiological and biochemical properties. Chemorganotrophs. Metabolism is respiratory, oxidase - and catalase-positive. Urease does not form. Starch, tween-80, gelatin is not hydrolyzed. Sorbose, raffinose, lactose, mellibiosis, trehalose are not disposed of. Capable of oxidizing petroleum hydrocarbons. Growth temperature 4 - 35 ^o C, pH 7.0 - 7.5, not pathogenic.

 Characterization of the strain Arthrobacter species KMM NF 5-7.

 Morphological and cultural characteristics. Short sticks shorten with age to cocci, with a diameter of 10 mmc, gram-positive. On dense nutrient media form rounded, smooth, shiny, whitish colonies. Saprophyte.

Physiological and biochemical properties. Chemorganotrophs. Metabolism is respiratory. Catalase-positive, oxidase-negative. Gelatin is hydrolyzed. Starch, tween-80 is not disposed of. Capable of oxidizing petroleum hydrocarbons. Growth temperature 4 - 35 ^o C, pH 7.0 - 7.5, not pathogenic.

The proposed consortium of microorganisms grows well on a liquid medium of the following composition, g / l: NH ₄ NO ₃ - 1.0, K ₂ HPO ₄ - 1.0, KH ₂ PO ₄ - 1.0, MgSO ₄ - 0.2, CaCl ₂ - 0.02, FeCl - 2 drops of a concentrated solution, distilled water - 1000 ml. As a single carbon source, 10 ml of oil is added.

The optimum growth temperature is 25-30 ^o C, pH 7.0 - 7.2 (Voroshilova, Dianova. Microbiology, vol. 31, issue 4, 1952).

The intensive growth of the consortium is observed when using the following composition, g / l: K ₂ HPO ₄ - 10.0, KH ₂ PO ₄ - 1.0, NH ₄ NO ₃ - 2.0, distilled water - 1000 ml, oil - 10 ml (Uncle, Tolstokorova, Morozova. A.S. N 1076446, 1984).

 An environment consisting of a 0.3% aqueous solution of nitroammofoski, where nitrogen, phosphorus and potassium are balanced at 17%, contributes to an active increase in the biomass of the consortium.

 The claimed consortium was isolated from soils chronically contaminated with oil products by plating a soil sample on agarized and liquid nutrient media. Typically, isolated strains of oil-oxidizing microorganisms have low activity, so it is necessary to increase their activity by adaptation.

 The adaptation of oil-oxidizing microorganisms to increased concentrations of oil products in the medium is carried out by frequent reseeding on a fresh nutrient medium. They do this in order to prevent the accumulation of toxic metabolites of microbial origin in the nutrient medium and to isolate more stable individuals of oil-oxidizing microorganisms, because weakened cells die or grow poorly. Intensive growth is given only by physiologically active cells. Thus, the selection of active cells is carried out and a consortium is obtained.

 By the method of mathematical analysis, it was found that in this consortium bacteria of the genus Aeromonas are the dominant species and typically encountered forms of bacteria - up to 60% of all microorganisms in the oil oxidizing population. Bacteria of the genus Alcaligenes belong to co-dominant species (30% of the total number of bacteria of the consortium). Arthrobacter species KMM NF 5-7 refers to a typically rare species in terms of occurrence and is 10%.

The oxidative activity of the consortium is determined by the final oxidation product, i.e. for the emission of CO ₂ .

In a 500 ml flask connected in series hermetically connected, a BaOH absorbent is introduced. 250 ml of Voroshilova-Dianova medium, 2.5 ml of oil product and 5 ml of a three-day culture of the consortium containing 1.0 • 10 ⁵ cells / ml are added to the flask with the inoculant. The supply of atmospheric air is carried out using dispenser A - 2 at a speed of 34 ml / min. In order to prevent CO ₂ from entering the flask with the inoculant, air passes through 2 flasks with a CO ₂ absorber, and the inoculant is aerated without carbon dioxide. After oxidation of petroleum products, the aerated air additionally passes through 2 flasks with a CO ₂ absorber, then BaOH is titrated with HCl and the oxidative ability is determined by the amount of carbon dioxide emitted. To establish the purity of the experiment, two more controls are simultaneously set under the same conditions. One with reagents, without a consortium and oil products, the other with reagents, oil products, but without a consortium. In the control, the content of CO _{2 was} not detected. The duration of the experiment is 30 days. The oxidative activity of the consortium is 2041 mg CO ₂ .

 Thus, the proposed consortium of strains of oil-oxidizing microorganisms has a higher oxidation rate of oil products.

Consortium application. To clean an oil slick on soil with a size of 10 x 10 m, a depth of contamination of 0.1 -0.2 m with an oil content of 20%, 0.7 kg of mineral fertilizer nitroammofoski, in which nitrogen, phosphorus, potassium are balanced at 17%, are dissolved in 200 liters of water. The contaminated area is watered with an aqueous solution of nitroammofoski (1 l / m ² ) 2 days before plowing. After plowing after 2 days, an additional aqueous solution of nitroammofoski is added. Watering rate 1 l / m ² . This operation is necessary to activate both saprophytic and native oil-oxidizing microflora. A week after the application of mineral fertilizers, a consortium inoculant (aqueous solution) is introduced. The titer is 1.0 • 10 ¹² cells in 1 ml. Watering rate 1 l / m ² . After a month, the oil content in the soil is 11%, after 2 months - 4%, after 3 months no oil products were found in the soil.

 Thus, the advantage of the proposed consortium of strains of oil-oxidizing microorganisms is the ability to grow on a depleted nutrient medium, as well as oxidize oil and oil products at a high rate, which makes it possible to effectively use it in the biological treatment of soils, soil and water contaminated with oil products and residual contamination.

Claims (1)

 Consortium of strains of destructive microorganisms: Acromonas species VKM B-2047D, Acromonas species VKM B-2048D, Alcaligenes denitrificans VKM B-2049D, Alcaligenes denitrificans VKM B-2050D, Arthrobacter species VKM B-2051D, used for soil and soil treatment from oil, oil products and residual oil contamination.