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. [CrossRef] [PubMed] [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. [NASA ADS] [CrossRef] [EDP Sciences] [MathSciNet] [PubMed] [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]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.