One of the most important issues regarding the design of engineered landfill is landfill leachate that is produced when water passes through the waste. Landfill Leachate comprises a mass of different organic and inorg...One of the most important issues regarding the design of engineered landfill is landfill leachate that is produced when water passes through the waste. Landfill Leachate comprises a mass of different organic and inorganic components which can be dissolved or suspended. Regardless of the nature of the components, it poses a potential pollution on local land and surface waters. The present work was undertaken to assess, isolate, identify and characterize the hydrocarbon degrading bacteria associated with environmental samples collected from discharge of Ain Temouchent, Algeria. The samples (landfill leachate) were chemically and microbiologically analyzed using standard techniques. These organisms were further studied to determine the level of biodegrading activities on hydrocarbons as the single carbon source using enrichment medium under different physical and chemical parameters (pH, temperature, NaCI and tolerance of crude oil...), The identification of seven strains isolated named as Pseudomonas aeruginosa, Pseudomonas fluorescens, Pseudornonas sp., Staphylococcus aureus, Staphylococcus xylosus, Staphylococcus hominis and Staphylococcus warnerii. These strains growth on a neutral medium and temperature between 30 ℃ and 37 ℃, 5 at 6% of NaCI concentration, and can use a concentration of 5 at 10% of crude oil as sole source of carbon.展开更多
Petroleum contaminants caused great damages to environment and human health.Among,the port of Oran is subject of pollution mainly by PAHs(Polycyclic Aromatic Hydrocarbons)as a result of the large flow of ships.Thus bi...Petroleum contaminants caused great damages to environment and human health.Among,the port of Oran is subject of pollution mainly by PAHs(Polycyclic Aromatic Hydrocarbons)as a result of the large flow of ships.Thus bioremediation by indigenous microorganisms is an important means for their reduction and elimination.In the present work,a hydrocarbonoclastic bacterium strain SP49F2 was considered,firstly isolated from the contaminated marine sediments and seawater at the port of Oran(Algeria),using Bushnell-Hass mineral salt medium,and identified on the basis of morphological and biochemical characteristics and molecular tools by analysis of partial 16S rRNA gene sequence,using the Basic Local Alignment Search Tool program on the data base of NCBI(National Centre for Biotechnology Information),and the EzBioCloud 16S rRNA database.Kinetic of growth of this isolate on crude oil during 20 days of culture was studied at temperature 25℃,3%(w/v)of NaCl concentration and pH 7,at 140 rpm(Revolutions Per Minute).Strain SP49F2 was identified molecularly as Acinetobacter johnsonii,and might support high concentrations of crude oil(up to 10%,v/v).Results of growth kinetic on crude oil as sole energy and carbon source by the isolate strain showed that the stationary phase was attained at day 12.Thus,train Acinetobacter johnsonii SP49F2 could efficiently utilize crude oil as its sole carbon and energy source,and could be used as a wonderful native biological alternative for the bioremediation of the port of Oran,and marine area polluted by petroleum hydrocarbons,as an eco-friendly efficacy degrader,and may be suitable for biotechnological applications.展开更多
文摘One of the most important issues regarding the design of engineered landfill is landfill leachate that is produced when water passes through the waste. Landfill Leachate comprises a mass of different organic and inorganic components which can be dissolved or suspended. Regardless of the nature of the components, it poses a potential pollution on local land and surface waters. The present work was undertaken to assess, isolate, identify and characterize the hydrocarbon degrading bacteria associated with environmental samples collected from discharge of Ain Temouchent, Algeria. The samples (landfill leachate) were chemically and microbiologically analyzed using standard techniques. These organisms were further studied to determine the level of biodegrading activities on hydrocarbons as the single carbon source using enrichment medium under different physical and chemical parameters (pH, temperature, NaCI and tolerance of crude oil...), The identification of seven strains isolated named as Pseudomonas aeruginosa, Pseudomonas fluorescens, Pseudornonas sp., Staphylococcus aureus, Staphylococcus xylosus, Staphylococcus hominis and Staphylococcus warnerii. These strains growth on a neutral medium and temperature between 30 ℃ and 37 ℃, 5 at 6% of NaCI concentration, and can use a concentration of 5 at 10% of crude oil as sole source of carbon.
文摘Petroleum contaminants caused great damages to environment and human health.Among,the port of Oran is subject of pollution mainly by PAHs(Polycyclic Aromatic Hydrocarbons)as a result of the large flow of ships.Thus bioremediation by indigenous microorganisms is an important means for their reduction and elimination.In the present work,a hydrocarbonoclastic bacterium strain SP49F2 was considered,firstly isolated from the contaminated marine sediments and seawater at the port of Oran(Algeria),using Bushnell-Hass mineral salt medium,and identified on the basis of morphological and biochemical characteristics and molecular tools by analysis of partial 16S rRNA gene sequence,using the Basic Local Alignment Search Tool program on the data base of NCBI(National Centre for Biotechnology Information),and the EzBioCloud 16S rRNA database.Kinetic of growth of this isolate on crude oil during 20 days of culture was studied at temperature 25℃,3%(w/v)of NaCl concentration and pH 7,at 140 rpm(Revolutions Per Minute).Strain SP49F2 was identified molecularly as Acinetobacter johnsonii,and might support high concentrations of crude oil(up to 10%,v/v).Results of growth kinetic on crude oil as sole energy and carbon source by the isolate strain showed that the stationary phase was attained at day 12.Thus,train Acinetobacter johnsonii SP49F2 could efficiently utilize crude oil as its sole carbon and energy source,and could be used as a wonderful native biological alternative for the bioremediation of the port of Oran,and marine area polluted by petroleum hydrocarbons,as an eco-friendly efficacy degrader,and may be suitable for biotechnological applications.
