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Growth of indigenous bacteria Vibrio alginolyticus and Dietzia sp. isolated from the east coast of Algeria in the presence of monoaromatic hydrocarbons

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
East coast of Algeria suffers from several types of pollution, mainly hydrocarbons. The hydrocarbon-based bacteria of the littoral were investigated. 53 indigenous strains were isolated, identified according to morphological and biochemical nature. Dietzia sp. CNJ898 PLO4 and Vibrio alginolyticus PB-WC 11099 were selected for growth tests in the presence of monoaromatic hydrocarbons as a sole source of carbon and energy and total hydrocarbons at the end of growth. The results showed that both strains used monoaromatics to grow. The total hydrocarbons determined after growth showed that all monoaromatics were biodegraded with different rates. The maximum rate was obtained with Dietzia sp. in the presence of xylene with 4.33 mg C/dm3 at the end of the process, followed by toluene with a level of 5.07 mg C/dm3 nd 5.60 mg C/dm3 in the presence of Vibrio alginolyticus. The lowest degradation rate was obtained in the presence of benzene with Dietzia sp. with 15 mg C/dm3 compared to the control, which was 27 mg C/dm3 at the beginning of growth. The results obtained showed that both selected strains assimilated the monoaromatics tested and could be used for the bioremediation of the polluted littoral.
Rocznik
Strony
127--137
Opis fizyczny
Bibliogr. 22 poz., tab., rys.
Twórcy
  • Laboratory of Biogeochemical and Ecological Analyzes of Aquatic Environments, Université Badji Mokhtar-Annaba, BP 12, Annaba 23000, Algeria
  • Laboratory of Biogeochemical and Ecological Analyzes of Aquatic Environments, Université Badji Mokhtar-Annaba, BP 12, Annaba 23000, Algeria
  • Laboratory L.M.G.E., Clermont Auvergne University, Clermont Ferrand, France
  • Laboratory L.M.G.E., Clermont Auvergne University, Clermont Ferrand, France
Bibliografia
  • [1] VANDECASTEELE J.-P., Oil Microbiology – Concepts, Environmental Implications, Industrial Applications, Vol. 1, Publications de l’institut français du pétrole, Paris 2005, 412 (in French).
  • [2] ANDREONI V., GIANFREDA L., Bioremediation and monitoring of aromatic polluted habitats, Appl. Microbiol. Biotechnol., 2007, 76 (2), 287.
  • [3] DELAFOULHOUZE M., Development and application of effect-driven analysis for the investigation and identification of risk contaminants in soils of polluted sites, Thesis, Bordeaux University, Bordeaux 2016 (in French).
  • [4] FOGHT J., Anaerobic biodegradation of aromatic hydrocarbons: Pathways and prospects, J. Mol. Microbiol. Biotechnol., 2008, 15 (2–3), 93 (in French).
  • [5] MAKKAR R.S., CAMEOTRA S.S., An update on the use of unconventional substrates for biosurfactant production and their new application, Appl. Microbiol. Biotechnol., 2002, 58, 428.
  • [6] RATHORE S., DESAI P.M., LIEW C.V., CHAN L.W., LIENG P.W.S., Microencapsulation of microbial cells, J. Food Eng., 2013, 116, 369.
  • [7] NOEL C., Monitoring the biodegradation of hydrocarbons by the coupling of geophysical measurements of the soil (induced polarization) and gas analyzes of CO2 concentration and carbon isotopy, Thesis, Orléans University, 2014 (in French).
  • [8] BARTHA R., Biotechnology of petroleum pollutant biodegradation, Microbial Ecol., 1986, 12, 155.
  • [9] ATLAS R.M., Petroleum biodegradation and oil spill bioremediation, Mar. Pollut. Bull., 1995, 31, 178.
  • [10] MORASCH B., RICHNOW H.H., SCHINK B., VIETH A., MECKENSTOCK R.U., Carbon and hydrogen stable isotope fractionation during aerobic bacterial degradation of aromatic hydrocarbons, Appl. Environ. Microbiol., 2002, 68 (10), 5194.
  • [11] FISCHER A., I.HERKLOTZ S., HERRMANN M., THULLNER S.A.B., WEELINK A.J.M., STAMS M., SCHLÖMANN H.H., VOGT C., Combined carbon and hydrogen isotope fractionation investigations for elucidating benzene biodegradation pathways, Environ. Sci. Technol., 2008, 42 (12), 4356.
  • [12] AÜLLO T., Potential natural attenuation of BTEX in natural gas storage aquifer, Thesis, Pau University, 2013 (in French).
  • [13] FEKNOUS N., BRANES Z., ROUABHIA K., BATISSON I., AMBLARD C., Isolation characterization and growth of locally isolated hydrocarbonoclastic marine bacteria (eastern Algerian coast), Environ. Monit. Assess., 2017, 189 (49), 1.
  • [14] BATISSON I., CROUZET O., HOGGAN P.B., SANCELME M., MANGOT J.F., MALLET C., BOHATIER J., Isolation and characterization of mesotrione-degrading Bacillus sp. from soil, Environ. Pollut., 2009, 157, 1195.
  • [15] SOLTANI M., Lipid distribution and metabolic pathways in four Gram-negative hydrocarbon-clastic bacteria variation in carbon source, Thesis, Pierre et Marie Curie University, Paris 2004 (in French).
  • [16] JORA, Journal Officiel de la République Algérienne No. 26, Official Journal of the Algerian Republic, Algeria, 2006.
  • [17] HEAD I.M., JONES D.M., RÖLING W.F.M., Marine micro-organisms make a meal of oil, Nat. Rev. Microbiol, 2006, 4, 173.
  • [18] HELDUND B.P., STALEY J.T., Vibrio cyclotriphycus sp. a polycyclic aromatic hydrocarbon (PAH)-degrading marine bacterium, Int. J. Syst. Evol. Microbiol., 2001, 51, 61.
  • [19] MOXLEY K., SCHMIDT S., Preliminary characterization of an estuarine, benzoate- utilizing Vibrio sp. isolated from Durban Harbour, South Africa. Current Research, technology and education topics, Appl. Microbiol. Microbial Biotechn., 2010, 2, 1249.
  • [20] JOHNSEN A.R., KARLSON U., Diffuse PAH contamination of surface soils: environmental occurrence, bioavailability, and microbial degradation, Appl. Microbiol. Biotechn., 2007, 76 (3), 533.
  • [21] XING XANG-BIAO W., CHANG-QIAO C., YONG N., YUE-QIN T., YAN T., GANG W., XIAO-LEI W., Degradation of petroleum hydrocarbons (C6–C40) and crude oil by a novel Dietzia strain, Bioresour. Technol., 2011, 102, 7755.
  • [22] DUBINSKY E.A., CONRAD M.E., CHAKRABORTY R., BILL M., BORGLIN S.E., HOLLIBAUGH J.T., MASON O.U.M., PICENO Y., REID F.C., STRINGFELLOW W.T., TOM L.M., HAZEN T.C., ANDERSEN G.L., Succession of hydrocarbon-degrading bacteria in the aftermath of the deepwater horizon oil spill in the Gulf of Mexico, Environ. Sci. Technol., 2013, 47, 10860.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6c7c0363-7851-46f5-bd94-4db8838a7285
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