Dossier: IFP International Workshop "Microbiology of Hydrocarbons: State of the Art and Perspectives"
Open Access
Issue
Oil & Gas Science and Technology - Rev. IFP
Volume 58, Number 4, July-August 2003
Dossier: IFP International Workshop "Microbiology of Hydrocarbons: State of the Art and Perspectives"
Page(s) 463 - 468
DOI https://doi.org/10.2516/ogst:2003029
Published online 01 December 2006
  • National Research Council, (2002) Oil in the Sea III: Inputs, Fates and Effects, National Academy of Sciences, Washington DC. [Google Scholar]
  • McMahon Anderson, C. and Labelle, R.P (2000) Update of comparative occurrence rates for offshore oil spills. Spill Science Technology Bulletin, 6, 303-321. [Google Scholar]
  • Tissot, B.P. and Welte, D.H. (1984) Petroleum Formation and Occurrence, Springer-Verlag, Berlin. [Google Scholar]
  • Prince, R.C. (2002) Petroleum and other hydrocarbons, biodegradation of. In: Encyclopedia of Environmental Microbiology (G. Bitton, G., ed.) John Wiley, New York, 2402-2416. [Google Scholar]
  • Prince, R.C.,Varadaraj, R.,Fiocco, R.J. and Lessard, R.R. (1999) Bioremediation as an oil spill response tool. Environmental Technology, 20, 891-896.. [CrossRef] [Google Scholar]
  • Prince, R.C. (1993) Petroleum spill bioremediation in marine environments. Critical Reviews in Microbiology, 19, 217-242. [Google Scholar]
  • Prince, R.C. (1997) Biodegradation of crude oil. In: Encyclopedia of Environmental Analysis and Remediation. John Wiley, New York, 2, 1327-1342. [Google Scholar]
  • Wiltshire, G.A. and Corcoran, L. (1991) Response to the Presidente Rivera major oil spill, Delaware River. In: Proceedings of the 1991 International Oil Spill Conference, American Petroleum Institute, Washington DC, 253-258. [Google Scholar]
  • Fingas, M.F. (1995) A literature review of the physics and predictive modeling of oil spill evaporation. Journal of Hazardous Materials, 42, 157-175. [CrossRef] [Google Scholar]
  • Yaws, C.L.,Pan, X. and Lin, X. (1993) Water solubility data for 151 hydrocarbons. Chemical Engineering, 100, 2, 108-111. [Google Scholar]
  • Garrett, R.M.,Pickering, I.J.,Haith, C.E. and Prince, R.C. (1998) Photooxidation of crude oils. Environmental Science and Technology, 32, 3719-3723. [CrossRef] [Google Scholar]
  • Bobra, M. (1991) Water in oil emulsification: a physicochemical study. In: Proceedings of the 1991 International Oil Spill Conference, American Petroleum Institute, Washington DC, 483-492. [Google Scholar]
  • Thomas, R. and Lunel, T. (1993) The Braer incident; dispersion in action. In: Proceedings of the Sixteenth Arctic Marine Oilspill Program Technical Seminar, Edmonton, Alberta, 843-859. [Google Scholar]
  • Lunel, T., Lee, K., Swannell, R., Wood, P., Rusin, J., Bailey, N., Halliwell, C., Davies, L., Sommerville, M., Dobie, A., Mitchell, D. and McDonagh, M. (1996) Shoreline clean up during the Sea Empress incident: the role of surf washing (clay oil flocculation), dispersants and bioremediation. In Proceedings of the Nineteenth Arctic and Marine Oil Spill Program Seminar. Environment Canada, 1521-1540. [Google Scholar]
  • Nauman, S.A. (1991) Shoreline clean-up: equipment and operations. In: Proceedings of the 1991 International Oil Spill Conference, American Petroleum Institute, Washington DC, 141-148. [Google Scholar]
  • Owens, E.H., (1999) The interaction of fine particles with stranded oil. Pure and Applied Chemistry, 71, 83-93. [CrossRef] [Google Scholar]
  • Weise, A. and Lee, K. (1997) The effect of clay-oil flocculation on natural oil biodegradation. In: Proceedings of the 1997 International Oil Spill Conference, American Petroleum Institute, Washington, D.C., 955-956. [Google Scholar]
  • National Research Council (1989) Using Oil Spill Dispersants on the Sea, National Academy of Science, Washington, DC. [Google Scholar]
  • Fiocco, R.J. and Lewis, A. (1999) Oil spill dispersants. Pure and Applied Chemistry, 71, 27-42. [CrossRef] [Google Scholar]
  • Lessard, R.R. and DeMarco, G. (2000) The significance of oil spill dispersants. Spill Science & Technology Bulletin, 6, 59-68. [Google Scholar]
  • Canevari, G.P. (1973) Development of the "Next Generation" Chemical Dispersants. In: Conference on Prevention and Control of Oil Spills; American Petroleum Institute, Washington, D., 231-240. [Google Scholar]
  • Fiocco, R.J. and Lessard, R.R. (1997) Demulsifying dispersant for an extended window of use. In: Proceedings of the 1997 International Oil Spill Conference, American Petroleum Institute, Washington, D.C., 1015-1016. [Google Scholar]
  • Strom-Kristiansen, T.,Lewis, A.,Daling, P.S.,Hokstad, J.N. and Singsaas, I. (1997) Weathering and dispersion of naphthenic, asphaltenic and waxy crude oils. In: Proceedings of the 1997 International Oil Spill Conference, American Petroleum Institute, Washington, DC, 631-636. [Google Scholar]
  • Lewis, A. and Aurand, D. (1997) Putting dispersants to work: overcoming obstacles. 1997 International Oil Spill Conference Issue Paper, American Petroleum Institute, Washington, DC, Technical Report #IOSC-004.23. [Google Scholar]
  • GeorgeAres, A. and Clark, J.R. (2000) Aquatic toxicity of two Corexit® dispersants. Chemosphere, 40, 897-906. [CrossRef] [PubMed] [Google Scholar]
  • Clark, J.R.,Bragin, G.E.,Febbo, E.J. and Letinski, D.J. (2001) Toxicity of physically and chemically dispersed oils under continuous and environmentally realistic exposure conditions: Applicability to dispersant use decisions in spill response planning. Proceedings of the 2001 International Oil Spill Conference, American Petroleum Institute, Washington, DC, 1249-1255. [Google Scholar]
  • Lewis, A., Daling, P.S., Strom-Kristiansen, T., Nordvik, A.B. and Fiocco, R.J. (1995) Weathering and chemical dispersion of oil at sea. In: Proceedings of the 1995 International Oil Spill Conference, American Petroleum Institute, Washington, D.C., 157-164. [Google Scholar]
  • Varadaraj, R.,Robbins, M.L.,Bock, J.,Pace, S. and MacDonald, D. (1995) Dispersion and biodegradation of oil spills on water. In: Proceedings of the 1995 International Oil Spill Conference, American Petroleum Institute, Washington DC, 101-106. [Google Scholar]
  • Swannell, R.P.J. and Daniel, F. (1999) Effect of dispersants on oil biodegradation under simulated marine conditions. Proceedings of the 1999 International Oil Spill Conference American Petroleum Institute, Washington, DC, 169-176. [Google Scholar]
  • Crescenzi, R.,Camilli, M.,Fascetti, E.,Porcelli, F.,Prosperi, G. and Sacceddu, P. (1999) Microbial degradation of biosurfactant dispersed oil. Proceedings of the 1999 International Oil Spill Conference, American Petroleum Institute; Washington, DC, 1039-1042. [Google Scholar]
  • Harris, B.C., Bonner, J.S., McDonald, T.J., Fuller, C.B., Page, C.A., Dimitriou-Christidis, P., Sterling, M.C., and Autenrieth, R.L. (2002) Bioavailability of chemicallydispersed oil. Proceedings of the Twenty-fifth Arctic and Marine Oil Spill Conference, Environment Canada, Ottawa, 895-905. [Google Scholar]
  • Page, C.A.,Bonner, J.S.,Sumner, P.L.,McDonald, T.J.,Autenrieth, R.L., and Fuller, C.B. (2000) Behavior of a chemically-dispersed oil and a whole oil on a near-shore environment. Water Research, 34, 2507-2516. [CrossRef] [Google Scholar]
  • Page, C.A.,Bonner, J.S.,McDonald, T.J. and Autenrieth, R.L. (2002) Behavior of a chemically dispersed oil in a wetland environment. Water Research 36, 3821-3833. [CrossRef] [PubMed] [Google Scholar]
  • Buist, I.,McCourt, J.,Potter, S.,Ross, S. and Trudel, K. (1999) In situ burning. Pure and Applied Chemistry, 71, 43-66. [CrossRef] [Google Scholar]
  • Macnaughton, S.J.,Stephen, J.R.,Venosa, A.D.,Davis, G.A.,Chang, Y.J. and White, D.C. (1999) Microbial population changes during bioremediation of an experimental oil spill. Applied and Environmental Microbiology, 65, 3566-3574. [PubMed] [Google Scholar]
  • Grossman, M.J., Prince, R.C., Garret, R.M., Garret, K.K., Bare, R.E., O'Neil, K.R., Sowlay, M.R., Hinton, S.M., Lee, K., Sergy, G.A. Owens, E.H. and Gu譥tte, C.C. (2000) Microbial diversity in oiled and unoiled shoreline sediments in the Norewegian Arctic. In: Proceedings of the 8th International Symposium on Microbial Ecology, (Bell, C.R., Brylinski, M. and Johnson-Green, P., eds.) Atlantic Canada Society for Microbial Ecology, Halifax, NS, 775-789. [Google Scholar]
  • Kasai, Y.,Kishira, H.,Sasaki, T.,Syutsubo, K.,Watanabe, K. and Harayama, S. (2002) Predominant growth of Alcanivorax strains in oil-contaminated and nutrientsupplemented sea water. Environmental Microbiology, 4, 141-147. [CrossRef] [MathSciNet] [PubMed] [Google Scholar]
  • Bragg, J.R.,Prince, R.C.,Harner, E.J. and Atlas, R.M. (1994) Effectiveness of bioremediation for the Exxon Valdez oil spill. Nature, 368, 413-418. [Google Scholar]
  • Prince, R.C. and Bragg, J.R. (1997) Shoreline bioremediation following the Exxon Valdez oil spill in Alaska. Bioremediation Journal, 1, 97-104. [CrossRef] [Google Scholar]
  • Prince, R.C., Clark, J.R., Lindstrom, J.E., Butler, E.L., Brown, E.J., Winter, G., Grossman, M.J., Parrish, R.R., Bare, R.E., Braddock, J.F., Steinhauer, W.G., Douglas, G.S., Kennedy, J.M., Barter, P.J., Bragg, J.R., Harner, E.J. and Atlas, R.M. (1994) Bioremediation of the Exxon Valdez oil spill: monitoring safety and efficacy. In Hydrocarbon Remediation (R.E. Hinchee, B.C. Alleman, R.E. Hoeppel and R.N. Miller, eds.), Lewis Publishers, Boca Raton, FL., 107-124. [Google Scholar]
  • Ladousse, A. and Tramier, B. (1991) Results of 12 years of research in spilled oil bioremediation: Inipol EAP22. In: Proceedings of the 1991 International Oil Spill Conference, American Petroleum Institute, Washington DC, 577-582. [Google Scholar]
  • Swannell, R.P.J.,Mitchell, D.,Lethbridge, G.,Jones, D.,Heath, D.,Hagley, M.,Jones, M.,Petch, S.,Milne, R.,Croxford, R. and Lee, K. (1999) A field demonstration of the efficacy of bioremediation to treat oiled shorelines following the Sea Empress incident. Environmental Technology, 20, 863-873. [Google Scholar]
  • Venosa, A.D., Suidan, M.T., Wrenn, B.A., Strohmeier, K.L., Haines, J.R., Eberhart, B.L., King, D. and Holder, E (1996) Bioremediation of an experimental oil spill on the shoreline of Delaware Bay. Environmental Science and Technology, 30, 1764-1775. [Google Scholar]
  • Mills, M.A., Bonner, J.S., Simon, M.A., McDonald, T.J. and Autenrieth, R.L. (1997) Bioremediation of a controlled oil release in a wetland. In: Proceedings of the Twentieth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, 1, 609-616. [Google Scholar]
  • Swannell, R.P.J.,Mitchell, D.,Jones, D.M.,Petch, S.,Head, I.M.,Wilis, A.,Lee, K. and Lepo, J.E. (1999) Bioremediation of oil-contaminated fine sediment. In: Proceedings of the 1999 International Oil Spill Conference. American Petroleum Institute, Washington DC, 751-756. [Google Scholar]
  • Ramsay, M.A.,Swannell, R.P.J.,Shipton, W.A.,Duke, N.C., and Hill, R.T. (2000) Effect of bioremediation on the microbial community in oiled mangrove sediments. Marine Pollution Bulletin, 41, 413-419. [CrossRef] [Google Scholar]
  • Prince, R.C., Bare, R E., Garrett, R.M., Grossman, M.J., Haith, C.E., Keim, L.G., Lee, K., Holtom, G.J., Lambert, P., Sergy, G.A., Owens, E.H. and Gu譥tte, C.C. (1999) Bioremediation of a marine oil spill in the Arctic, In: In Situ Bioremediation of Petroleum Hydrocarbon and Other Organic Compounds. (Alleman, B.C. and A. Leeson, eds.), Battle Press, Columbus, OH, 227-232. [Google Scholar]
  • Venosa, A.D.,Haines, J.R. and Allen, D.M. (1992) Efficacy of commercial inocula in enhancing biodegradation of weathered crude oil contaminating a Prince William Sound beach. Journal of Industrial Microbiology, 10, 1-11. [CrossRef] [Google Scholar]
  • Swannell, R.P.J., Lee, K., Basseres, A. and Merlin, F.X. (1994). A direct respirometric method for in situ determination of bioremediation efficiency. In: Proceedings of the Seventeenth Arctic Marine Oilspill Program Technical Seminar, Environment Canada, Ottawa, ON, 1273-1286. [Google Scholar]
  • Prince, R.C.,Elmendorf, D.L.,Lute, J.R.,Hsu, C.S.,Haith, C.E.,Senius, J.D.,Dechert, G.J.,Douglas, G.S. and Butler, E.L. (1994) 17a(H),21b(H)-hopane as a conserved internal marker for estimating the biodegradation of crude oil. Environmental Science and Technology, 28, 142-145. [CrossRef] [MathSciNet] [Google Scholar]

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