Author/Authors :
Lalevic، Blazo نويسنده University of Belgrade, Faculty of Agriculture, Belgrade-Zemun, Serbia , , Raicevic، Vera نويسنده University of Belgrade, Faculty of Agriculture, Belgrade-Zemun, Serbia , , Atanaskovic، Iva نويسنده Kneza Milosa 64, Belgrade, Serbia , , Kikovic، Dragan نويسنده Faculty of natural sciences, Kosovska Mitrovica, Serbia , , Talaiekhozani، Amirreza نويسنده Jami Institute of Technology, Department of Civil Engineering, Isfahan, Iran. , , Hamidovic، Saud نويسنده Faculty of agricultural and food sciences, Sarajevo, Bosnia and Herzegovina , , Gkorezis ، Panagiotis نويسنده Hasselt University, Department Of Environmental Biology, CMK, Universitaire Campus building D, B-3590 Diepenbeek, Belgium ,
Abstract :
Oil fields are not uniformly dispensed on the world’s map, but are limited in several areas such as Persian Gulf region. Frequent international transport by tankers and shipping accidents makes the oil and its products a most important pollutant of ecosystems. After these accidents, different methods have been developed for clean-up of the polluted areas, out of which bioremediation has attracted highest attention. Thepresent paper describes the crude oil degradation by bacteria Kocuria sp. 27/1, isolated from contaminated wastewater by oil hydrocarbons. This bacteria was used for inoculation of mineral salt medium containing 500; 1000; 2000; and 4000 ppm of crude oil (v/v). Incubation was performed in orbital shaker (250 rpm) at 30°C for 7 days. The optical density of the liquid culture and final oil concentration were measured. Results showed that Kocuria sp. 27/1 was capable of crude oil degradation. Throughout the experiment, the optical density was rapidly increased comparing to the control. The results obtained by this research showed that Kocuria sp. 27/1 can potentially be used for application in crude oil biodegradation of natural environments.
