Zahra Alipour Asadabadi; Mansoureh Malekian; Mohsen Soleimani; Hossein Mirdamadian
Volume 15, Issue 2 , July 2017, , Pages 129-140
A wide range of organic chemicals enter into the environment, intentionally or unintentionally, creating public concern. Petroleum hydrocarbons represent one of these organic pollutants threatening various hazards to terrestrial and marine ecosystems. We need cost effective technologies ...
A wide range of organic chemicals enter into the environment, intentionally or unintentionally, creating public concern. Petroleum hydrocarbons represent one of these organic pollutants threatening various hazards to terrestrial and marine ecosystems. We need cost effective technologies for restoration of contaminated sites, and bioremediation is one the methods which has been used in recent decades. In this method, microrganisms and plants are used to remove, degrade or stabilize pollutants. Biological methods are economically more acceptable than physical and chemical methods. The current study aims to identify the best bacteria for decomposing petroleum hydrocarbons in the soil at Tabriz refinery.
Material and methods:
In this study, oil contaminated soils were collected from a refinery in Tabriz and, in order to identify them, a synthetic Bushnell Haas Mineral Salts medium (BHMS) was used. After the enrichment process, separation and purification were performed. Two strains were selected for molecular identification based on the higher growth in a medium containing crude oil. Molecular identification of the selected strains was conducted after DNA extraction and sequencing of the 16S rRNA gene. The growth of bacteria in both light and heavy diesel was recorded using a spectrophotometer at wavelengths of 560 nm. To assess the production of a biosurfactant, several tests including a drop collapsing test, oil displacement test as well as emulsification activity and cell surface hydrophobicity were performed.
Results and discussion:
The sequences obtained were compared with those of the National Center for Biotechnology Information (NCBI). The isolated bacteria with 98% similarity belonged to Pseudomonas aeruginosa and Achromobacter spanius. Both bacteria showed growth in all the three oil components, however,Achromobacter spanius had higher growth rate compared to Pseudomonas aeruginosa. The latter could decompose 67 percent of light diesel in 9 days. Although both bacteria could produce a biosurfactant, Achromobacter spanius had higher hydrophobic cell surface and emulsification activity.
In the current study we introduced Achromobacter spanius as an efficient bacterium for the decomposition of heavy and light diesel and crude oil. Based on the results, it is recomended that the ability of the identified bacteria in petroleum contaminated terrestrial and aquatic environments be investigated further.