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Oil Spill Dispersants: Efficacy and Effects (2005)

Chapter: References

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Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

References

Aamo, O.M., M. Reed and P. Daling. 1993. A laboratory based weathering model: PC version for coupling to transport models. Pp. 617–626 in Proceedings of the Sixteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Canada. Environment Canada, Ottawa, Ontario, Canada.

Aamo, O.M., M. Reed and K. Downing. 1997. Oil Spill Contingency and Response (OSCAR) Model System: Sensitivity Studies. Pp. 429–438 in Proceedings of the 1997 International Oil Spill Conference, Fort Lauderdale, Florida. American Petroleum Institute, Washington, D.C.

Adams, G.G., P.L. Klerks, S.E. Belanger and D. Dantin. 1999. The Effect of the Oil Dispersant Omni-Clean on the Toxicity of Fuel Oil No. 2 in Two Bioassays With the Sheepshead Minnow Cypriodon variegates. Chemosphere 39:2141–2157.

Addassi, Y.M. Sowby, H. Parker-Hall and W. Robberson. In press. Establishment of Dispersant Use Zones in the State of California: A consensus approach for marine waters 200 nautical miles from shore. Proceedings of the 2005 International Oil Spill Conference, Miami Beach, Florida. American Petroleum Institute, Washington, D.C.

Agrawal, Y.C., E.A. Terray, M.A. Donelan, P.A. Hwang, A.J. Williams, W.M. Drennan, K.K. Kahma and S.A. Kitaigorodskii. 1992. Enhanced dissipation of kinetic energy beneath surface waves. Nature 359:219–220.

Alaska Department of Environmental Conservation. 1989. Letter dated March 28, 1989 from the State of Alaska to the U.S. Coast Guard. State of Alaska, Department of Environmental Conservation, Office of the Commissioner, Juneau.

Alaska Department of Environmental Conservation. 1993. The Exxon Valdez Oil Spill: Final Report State of Alaska Response. State of Alaska, Department of Environmental Conservation, Office of the Commissioner, Juneau.

Alaska Oil Spill Commission. 1990. The Wreck of the Exxon Valdez. Final report of the State of Alaska Oil Spill Commission. State of Alaska, Office of the Governor, Juneau.

Allen, A.A. 1988. Comparison of response options for offshore oil spills. Pp. 289–306 in Proceedings of the Eleventh Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Allen, A.A. and J.R. Payne. 2001. Liverpool Bay crude oil discharge tests at OHMSETT Facilities—December 2–6, 2000. A report prepared for BHP Petroleum Limited, Spiltec, and Payne Environmental Consultants, Incorporated. Payne Environmental Consultants, Incorporated, Encinitas, California.

American Society of Civil Engineers (ASCE) Task Committee on Modeling of Oil Spills of the Water Resources Engineering Division. 1996. State-of-the Art Review of Modeling Transport and Fate of Oil Spills. Journal of Hydraulic Engineering 122(11):594–609.

American Society for Testing and Materials (ASTM). 1992. Standard Guide for Oil Spill Dispersant Application Equipment: Boom and Nozzle Systems. Designation: F1413-92. American Society for Testing and Materials, Philadelphia, Pennsylvania.

American Society for Testing and Materials (ASTM). 1993. Standard Practice for Calibrating Oil Spill Dispersant Application Equipment: Boom and Nozzle Systems. Designation: F1460-93. American Society for Testing and Materials, Philadelphia, Pennsylvania.

American Society for Testing and Materials (ASTM). 1996. Standard Guide for Use of Oil Spill Dispersant Application Equipment During Spill Response: Boom and Nozzle Systems. Designation: F1737-96. American Society for Testing and Materials, Philadelphia, Pennsylvania.

American Society for Testing and Materials (ASTM). 2000. Standard Test Method for Laboratory Oil Spill Dispersant Effectiveness Using the Swirling Flask. Designation: F2059-00. American Society for Testing and Materials, Philadelphia, Pennsylvania.

Ankley, G.T., S.A. Collyard, P.D. Monson and P.A. Kosian. 1994. Influence of ultraviolet light on the toxicity of sediments contaminated with polycyclic aromatic hydrocarbons. Journal of Environmental Toxicology and Chemistry 13:1791–1796.

Aquatic Testing Laboratories. 1994. Abalone larval development short term toxicity test for oil spill cleanup agents. Laboratory report. Aquatic Testing Laboratories, Ventura, California.

Aunaas, T., A. Olsen and K.E. Zachariassen. 1991. The effects of oil and oil dispersants on the amphipod Gammarus-oceanicus from arctic waters. Polar Research 10(2)619–630.

Aurand, D., G. Coelho, J. Clark and G. Bragin. 1999. Goals, objectives and design of a mesocosm experiment on the environmental consequences of nearshore dispersant use. Pp. 629–643 in Proceedings of the Twenty-Second Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Calgary, Canada. Environment Canada, Ottawa, Ontario, Canada.

Aurand, D., L. Walko and R. Pond. 2000. Developing Consensus Ecological Risk Assessments: Environmental Protection in Oil Spill Response Planning A Guidebook. United States Coast Guard. Washington, D.C.

Aurand, D.V., G.M. Coelho and A. Steen. 2001. Ten years of research by the U.S. oil industry to evaluate the ecological issues of dispersant use: An overview of the past decade. Pp. 429–434 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Aurand, D., M. Hitchings, L. Walko, J. Clark, J. Bonner, C. Page, R. Jamail and R. Martin. 2001. Justification for the Proposed Texas General Land Office “Spill of Opportunity” Testing Program. EM&A Preliminary Report 01-08A. Ecosystem Management & Associates, Incorporated, Lusby, Maryland.

Aurand, D., M. Hitchings, L. Walko, J. Clark, J. Bonner, C. Page, R. Jamail and R. Martin. 2004. Texas General Land Office “Spill of Opportunity” Dispersant Demonstration Project Description. EM&A Final Report 01-08A. Ecosystem Management & Associates, Incorporated, Lusby, Maryland.


Baca, B.J. and C.D. Getter. 1984. The toxicity of oil and chemically dispersed oil to the seagrass Thalassia testudinum. Pp. 314–323 in Oil Spill Chemical Dispersants: Research, Experience, and Recommendations, T.E. Allen, Ed. American Society for Testing and Materials, Philadelphia, Pennsylvania.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Baker, J.M., J.H. Cruthers, D.I. Little, J.H. Oldham and C.M. Wilson. 1984. Comparison of the fate and ecological effects of dispersed and non-dispersed oil in a variety of marine habitats. Pp. 239–279 in Oil Spill Chemical Dispersants: Research, Experience, and Recommendations, T.E. Allen, ed. American Society for Testing and Materials, Philadelphia, Pennsylvania.

Ballou, T.G., R.E. Dodge, S.C. Hess, A.H. Knap and T.D. Sleeter. 1987. Effects of a Dispersed and Undispersed Crude Oil on Mangroves, Seagrasses, and Corals. American Petroleum Institute Publication Number 4460. American Petroleum Institute, Washington, D.C.

Ballou, T.G., S.C. Hess, R.E. Dodge, A.H. Knap and T.D. Sleeter. 1989. Effects of untreated and chemically dispersed oil on tropical marine communities: A long-term field experiment. Pp. 447–454 in Proceedings of the 1989 International Oil Spill Conference, San Antonio, Texas. American Petroleum Institute, Washington, D.C.

Barnea, N. and R. Laferriere. 1999. SMART: Scientific monitoring of advanced response technologies. Pp.1265–1267 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Barron, M.G. 2000. Potential for photenhanced toxicity of spilled oil in Prince William Sound and Gulf of Alaska waters . Contract No. 602.00.1. Report prepared for the Prince William Sound Regional Citizen’s Advisory Council. Prince William Sound Regional Citizens’ Advisory Council, Anchorage, Alaska.

Barron, M.G. and L. Ka’aihue. 2001. Potential for photoenhanced toxicity of spilled oil in Prince William Sound and Gulf of Alaska waters. Marine Pollution Bulletin 43:86–92.

Barron, M.G. and L. Ka’aihue. 2003. Critical evaluation of CROSERF test methods for oil dispersant toxicity testing under subarctic conditions. Marine Pollution Bulletin 46:1191–1199.

Barron, M.G., T. Podrabasky, S. Ogle and R.W. Ricker. 1999. Are aromatic hydrocarbons the primary determinant of petroleum toxicity to aquatic organisms? Aquatic Toxicology 46:253–268.

Barron M.G., M.G. Carls, R. Heintz and S.D. Rice. 2004. Evaluation of fish early life stage toxicity models of chronic embryonic exposures to complex polycyclic aromatic hydrocarbon mixtures. Toxicological Sciences 78:60–67.

Bassin, N.J. and T. Ichiye. 1977. Flocculation behavior of suspended sediments and oil emulsions. Journal of Sedimentary Petrology 47:671–677.

Beaupoil, C. and D. Nedelec. 1994. Etude de la toxicite du produit de lavage Corexit® 9500 vis-a-vis de la crevette blanche Palaemonetes varians. Laboratoire de Biologie Marine, Concarneau, France.

Becker, K.W., M.A. Walsh, R.J. Fiocco and M.T. Curran. 1993. A new laboratory method for evaluating oil spill dispersants. Pp. 507–510 in Proceedings of the 1993 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Belk, J.L., D.J. Elliott and L.M. Flaherty. 1989. The comparative effectiveness of dispersants in fresh and low salinity waters. Pp. 333–336 in Proceedings of the 1989 International Oil Spill Conference, San Antonio, Texas. American Petroleum Institute, Washington, D.C.

Belluck, D. 1993. Defining Scientific Procedural Standards for Ecological Risk Assessment. Pp. 440–450 in Environmental Toxicology and Risk Assessment: 2nd Volume, ASTM STP 1216, J.W. Gorsuch, F.J. Dwyer, C.G. Ingersoll and T.W. LaPoint, eds., American Society for Testing and Materials, Philadelphia, Pennsylvania.

Belore, R. 2003. Large wave tank dispersant effectiveness testing in cold water. Pp. 381–385 in Proceedings of the 2003 International Oil Spill Conference, Vancouver, Canada. American Petroleum Institute, Washington, D.C. [Online] Available at: http://www.slross.com/publications/IOSC.htm [February 11, 2005].

Berger, D. and D. Mackay. 1994. The evaporation of viscous or waxy oils—When is a liquid-phase resistance significant? Pp. 77–92 in Proceedings of the Seventeenth Arctic and Marine

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Oil Spill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Bertuccioli, L., G.I. Roth, J. Katz, and T.R. Osborn. 1999. Turbulence measurements in the bottom boundary layer using particle image velocimetry. Journal of Atmospheric and Oceanic Technology 16(11):1635–1646.

Bhattacharyya, S., P.L. Klerks and J.A. Nyman. 2003. Toxicity to freshwater organisms from oils and oil spill chemical treatments in laboratory microcosms. Environmental Pollution 122:205–215.

Bhosle, N.B. and S. Mavinkurve. 1984. Effects of dispersants on microbial growth and biodegradation of crude oil. Mahasagar-Bulletin of the National Institute of Oceanography 17(4):233–238.

Bhosle, N.B. and A. Row. 1983. Effect of dispersants on the growth of indigenous bacterial population and biodegradation of crude oil. Indian Journal of Marine Sciences 12(3):194–196.

Blackall, P.J. and G.A. Sergy, 1981. The BIOS project-frontier oil spill countermeasures research. Pp. 167–172 in Proceedings of the 1981 International Oil Spill Conference, Atlanta, Georgia. American Petroleum Institute, Washington, D.C.

Blondina, G.J., M.L. Sowby, M.T. Ouano, M.M. Singer and R.S. Tjeerdema. 1997. A modified swirling flask efficacy test for oil spill dispersants. Spill Science and Technology Bulletin 4(3):177–185.

Blondina, G.J., M.M. Singer, I. Lee, M.T. Ouano, M. Hodgins, R.S. Tjeerdema and M.L. Sowby. 1999. Influence of salinity on petroleum accommodation by dispersants. Spill Science and Technology Bulletin 5(2):127–134.

Blum, D.J. and R.E. Speece. 1990. Determining chemical toxicity to aquatic species, Environmental Science and Technology 24:284–293.

Blumer, M., G. Souza and J. Sass. 1970. Hydrocarbon pollution of edible shellfish by an oil spill. Marine Biology 5:195–202.

Bobra, M. 1990. A study of the formation of water-in-oil emulsions. Pp. 87–117 in Proceedings of the Thirteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Bobra, M. 1991. Water-in-Oil Emulsification: A Physicochemical Study. Pp. 483–492 in Proceedings of the 1991 International Oil Spill Conference, San Diego, California. American Petroleum Institute, Washington, D.C.

Bobra, M. 1992. A Study of the Evaporation of Petroleum Oils. Report No. EE-135. Report to Environmental Emergencies Science Division of Environment Canada. Environment Canada, Ottawa, Ontario, Canada.

Bocard, C., G. Castaing, J. Ducreux, C. Gatellier, J. Croquette and F. Merlin. 1987. PROTECMAR: The French experience form a seven-year dispersant offshore trials programme. Pp. 225–229 in Proceedings of the 1987 International Oil Spill Conference, Baltimore, Maryland. American Petroleum Institute, Washington, D.C.

Boehm, P.D. 1987. Transport and Transformation Processes Regarding Hydrocarbon and Metal Pollutants in Offshore Sedimentary Environments. Pp. 233–287 in Long-Term Environmental Effects of Offshore Oil and Gas Development, D.F. Boesch and N.N. Rabalais, eds. Elsevier Applied Science, New York, New York.

Boehm, P.D. and D.L. Fiest. 1980. Surface water column transport and weathering of petroleum hydrocarbons during the IXTOC-I blowout in the Bay of Campeche and their relation to surface oil and microlayer compositions. Pp. 267–338 in Proceedings of the Symposium on Preliminary Results from the September 1979 Researcher/Pierce IXTOC-I Cruise, Key Biscayne, Florida. National Oceanic and Atmospheric Administration Publications Office, Boulder, Colorado.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Boehm, P.D. and D.L. Fiest. 1982. Subsurface distribution of petroleum from an offshore well blowout. The IXTOC-I blowout, Bay of Campeche. Environmental Science and Technology 16(2):67–74.

Boese, B.L., J.O. Lamberson, R.C. Swartz and R.J. Ozretich. 1997. Photoinduced toxicity of fluoranthene to seven marine benthic crustaceans. Archives of Environmental Contamination and Toxicology 32:389–393.

Bonner, J.S., C.A. Page and C.B. Fuller. 2003. Meso-scale testing and development of test procedures to maintain mass balance. Marine Pollution Bulletin 47:406–414.

Box, G.E.P., W.G. Hunter and J.S. Hunter. 1978. Statistics for Experimenters: An Introduction to Design, Data Analysis, and Model Building. John Wiley & Sons, Incorporated, New York, New York.

Bradbury, S., R.Carlson and T. Henry. 1989. Polar narcosis in aquatic organisms. Aquatic Toxicology and Hazard Assessment 12:59–73.

Braddock, J.F. and Z.D. Richter. 1998. Microbial degradation of aromatic hydrocarbons in marine sediments. Final Report OCS Study MMS 97-0041. Institute of Arctic Biology, University of Alaska, Fairbanks.

Bragg, J.R. and E.H. Owens. 1994. Clay-oil flocculation as a natural cleansing process following oil spills: Part 1—Studies of shoreline sediments and residues from past spills. Pp. 1–23 in Proceedings of the Seventeenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Bragg, J.R. and E.H. Owens. 1995. Shoreline cleansing by interactions between oil and fine mineral particles. Pp. 216–227 in Proceedings of the 1995 International Oil Spill Conference, Long Beach, California. American Petroleum Institute, Washington, D.C.

Bragg, J.R. and S.H. Yang. 1995. Clay–oil flocculation and its effects on the rate of natural cleansing in Prince William Sound following the Exxon Valdez oil spill. Pp. 178–214 in Exxon Valdez Oil Spill—Fate and Effects in Alaskan Waters, P.G. Wells, J.N. Butler, J.S. Hughes eds., American Society for Testing and Materials, Philadelphia, Pennsylvania.

Bragin, G., G. Coelho, E. Febbo, J. Clark and D. Aurand. 1999. Coastal oilspill simulation system comparison of oil and chemically dispersed oil released in near-shore environments: Biological effects. Pp. 671–683 in Proceedings of the Twenty-Second Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Brandvik, J.J. and P.S. Daling. 1990. Statistical experimental design optimization of dispersant’s performance. Pp. 243–254 in Proceedings of the Thirteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Brandvik, J.J., P.S. Daling and K. Aareskjold. 1991. Chemical dispersibility testing of fresh and weathered oils—an extended study with eight oil types. DIWO Report No. 12. SINTEF Group, Trondheim, Norway.

Brandvik, J.J., M.D. Moldestad and P.S. Daling. 1992. Laboratory testing of dispersants under arctic conditions. Pp. 123–134 in Proceedings of the Fifteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Brandvik, J.J., P.S. Daling, A. Lewis and T. Lunel. 1995. Measurements of dispersed oil concentrations by in-situ UV fluorescence during the Norwegian experimental oil spill with Sture blend. Pp. 519–535 in Proceedings of the Eighteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Brandvik, P.J., T. Strom-Kristiansen, A. Lewis, P.S. Daling, M. Reed, H. Rye and H. Jensen. 1996. The Norwegian Sea trial 1995 offshore testing of two dispersant systems in simu-

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

lation of an underwater pipeline leakage, a summary paper. Pp. 1395–1416 in Proceedings of the Nineteen Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Briceno, J., W.J. McKee, J.R. Clark and D.D. Whiting. 1992. Relative sensitivity of Gulf of Mexico species and national test species in acute toxicity tests with dispersants. Poster presentation. Paper presented at the Thirteenth Annual Meeting of the Society of Environmental Toxicology and Chemisty (SETAC). SETAC, North America, Pensacola, Florida.

Bridie, A.L, Th.H. Wanders, W. Zegveld and H.B. Van der Heijde. 1980a. The Formation, Prevention and Breaking of Sea-Water-in-Crude-Oil Emulsions: “Chocolate Mousse.” Paper presented at International Research Symposium, Chemical Dispersion of Oil Spills, Toronto, Canada. University of Toronto, Institute for Environmental Studies, Toronto, Ontario, Canada.

Bridie, A.L., Th.H. Wanders, W. Zegveld and H.B. Van der Heijde. 1980b. Formation, Prevention and Breaking of Sea Water in Crude Oil Emulsions: “Chocolate Mousses.” Marine Pollution Bulletin 2:343–348.

Briggs, K.T., S.H. Yoshida and M.E. Gershwin. 1996. The influence of petrochemicals and stress on the immune system of seabirds. Regulatory Toxicology and Pharmacology 23:145–155.

Brochu, C., E. Pelletier, G. Caron and J.E. Desnoyers. 1986. Dispersion of crude oil in seawater: The role of synthetic surfactants. Oil & Chemical Pollution 3:257–279.

Broecker, W.S. and T.-H. Peng. 1982. Tracers in the Sea. Lamont-Doherty Geological Observatory, Palisades, New York.

Brooks, J.M., D.A. Weisenburg, R.A. Burke, M.C. Kenicutt and B.B. Bernard. 1980. Gaseous and volatile hydrocarbons in the Gulf of Mexico following the IXTOC-I blowout. Pp. 53–88 in Proceedings of the Symposium on Preliminary Results from the September 1979 Researcher/Pierce IXTOC-I Cruise, Key Biscayne, Florida. National Oceanic and Atmospheric Administration Publications Office, Boulder, Colorado.

Brovchenko, I., A. Kuschan, V. Maderich, M. Shlakhtun, V. Koshebutsky and M. Zheleznyak. 2003. Model of oil spill simulation in the Black Sea. Pp. 101–112 in Proceedings of the Third Conference on Oil Spills, Oil Pollution and Remediation, Istanbul, Turkey. Bo-aziçi University, Institute of Environmental Sciences, Istanbul, Turkey.

Brown, C.E., M.F. Fingas, R.H. Goodman, J.V. Mullin, M. Choquet and J.-P. Monchalin. 2000. Progress in achieving airborne oil slick thickness measurement. Pp. 493–498 Proceedings of the Twenty-Third Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Brown, H.M. and R.H. Goodman. 1987. The Dispersion of Alaska North Slope Oil in Wave Basin Tests. Report to Alaska Clean Seas and Esso Imperial Oil. Alaska Clean Seas, Prudhoe Bay, Alaska, and Esso Imperial Oil, Calgary, Alberta, Canada.

Brown, H.M. and R.H. Goodman. 1988. Dispersant tests in a wave basin—four years of experience. Pp. 501–514 in Proceedings of the Eleventh Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Brown, H.M., R.H. Goodman and G.P. Canevari. 1987. Where has all the oil gone? Dispersed oil detection in a wave basin and at sea. Pp. 307–312 in Proceedings of the 1987 International Oil Spill Conference, Baltimore, Maryland. American Petroleum Institute, Washington, D.C.

Brown, H.M., J.S. Goudey, J.M. Foght, S.K. Cheng, M. Dale, J. Hoddinott, L.R. Quaife and D.W.S. Westlake. 1990. Dispersion of spilled oil in freshwater systems: field trial of a chemical dispersant. Oil and Chemical Pollution 6:37–54.

Bruheim, P. and K. Eimhjellen. 2000. Effects of non-ionic surfactants on the uptake and hydrolysis of fluorescein diacetate by alkane-oxidizing bacteria. Canadian Journal of Microbiology 46(4):387–390.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Bruheim, P., H. Bredholt and K. Eimhjellen. 1997. Bacterial degradation of emulsified crude oil and the effect of various surfactants. Canadian Journal of Microbiology 43:17–22.

Bruheim, P., H. Bredholt and K. Eimhjellen. 1999. Effects of surfactant mixtures, including Corexit 9527, on bacterial oxidation of acetate and alkanes in crude oil. Applied and Environmental Microbiology 65(4):1658–1661.

Burbank, D.C. 1977. Environmental studies of Kachemak Bay and lower Cook Inlet—Volume III. Circulation studies in Kachemak Bay and lower Cook Inlet. Alaska Department of Fish and Game, Anchorage, Alaska.

Burns, K.A. and A.H Knap. 1989. The Bahia Las Minas oil spill: Hydrocarbon uptake by reef building corals. Marine Pollution Bulletin 20(8):391–398.

Burns, K.A., S. Codi, C. Pratt and N.C. Duke. 1999. Weathering of hydrocarbons in mangrove sediments: testing the effects of using dispersants to treat oil spills. Organic Geochemistry 30:1273–1286.

Burridge, T.R. and M. Shir. 1995. The comparative effects of oil, dispersants, and oil/dispersant conjugates on germination of marine macroalga Phyllospora comosa (Fucales: Phaeophyta). Marine Pollution Bulletin 31:446–452.

Bury, S.J. and C.A. Miller. 1993. Effect of micellar solubilization on biodegradation rates of hydrocarbons. Environmental Science and Technology 27:104–110.

Butler, J.N. 1975. Evaporative weathering of petroleum residues: the age of pelagic tar. Marine Chemistry 3:9–21.

Butler, J.N., B.F. Morris and T.D. Sleeter. 1976. The fate of petroleum in the open ocean. Pp. 287–297 in Sources, effects, and sinks of hydrocarbons in the aquatic environment. The American Institute of Biological Sciences, Washington, D.C.

Byford, D.C., P.J. Green and A. Lewis. 1983. Factors influencing the performance and selection of low-temperature dispersants. Pp. 140–150 in Proceedings of the Sixth Annual Arctic Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Byford, D.C., P.R. Laskey and A. Lewis. 1984. Effect of low temperature and varying energy input on the droplet size distribution of oils treated with dispersants. Pp. 208–228 in Proceedings of the Seventh Annual Arctic Marine Oilspill Program (AMOP) Technical Seminar. Environment Canada. Ottawa, Ontario, Canada


Canevari, G.P. 1969. The role of chemical dispersants in oil cleanup. Pp. 29–51 in Oil on the Sea, D.P. Hoult, Ed. Plenum Press, New York, New York.

Canevari, G.P. 1984. A review of the relationship between the characteristics of spilled oil and dispersant effectiveness. Pp. 87–93 in Oil Spill Chemical Dispersants: Research, Experience, and Recommendations, T.E. Allen, Ed. American Society for Testing and Materials. Philadelphia, Pennsylvania.

Canevari, G.P., P. Calcavecchio, R.R. Lessard, K.W. Becker and R.J. Fiocco. 2001. Key parameters affecting the dispersion of viscous oil. Pp. 479–483 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Champ, M.A., ed. 2000. Special issue: Langmuir circulation and oil spill modeling. Spill Science and Technology Bulletin 6(3/4):207–275.

Chandrasekar, S., G. Sorial and J.W. Weaver. 2003. Determining dispersant effectiveness data for a suite of environmental conditions. Proceedings of the 2003 International Oil Spill Conference, Vancouver, Canada. American Petroleum Institute, Washington, D.C.

Choquet, M., R. Heon, G. Vaudreuil, J.-P. Monchalin, C. Padioleau and R.H. Goodman. 1993. Remote thickness measurement of oil slicks on water by laser-ultrasonics. Pp. 531–536 in Proceedings of the 1993 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Chow, V.T. 1988. Open Channel Hydraulics. McGraw-Hill, Incorporated, New York, New York.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Churchill, P.F. and S.A. Churchill. 1997. Surfactant-enhanced biodegradation of solid alkanes. Journal of Environmental Science and Health, A 32(1):293–306.

Clark, J.R., G.E. Bragin, R.J. Febbo and D.J. Letinski. 2001. Toxicity of physically and chemically dispersed oils under continuous and environmentally realistic exposure conditions: Applicability to dispersant use decisions in spill response planning. Pp. 1249–1255 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Clayton, J.R., Jr., J.R. Payne and J.S. Farlow. 1993. Oil Spill Dispersants: Mechanisms of Action and Laboratory Tests. CRC Press, Incorporated, Boca Raton, Florida.

Cloutier, D., C.L. Amos, P.R. Hill and K. Lee. 2002. Oil erosion in an annular flume by seawater of varying turbidities: a critical bed shear stress approach. Spill Science and Technology Bulletin 8(1):83–93.

Coelho, G.M. and D.V. Aurand, Eds. 1996. Proceedings of the Fifth Meeting of the Chemical Response to Oil Spills: Ecological Effects Research Forum. Ecosystem Management and Associates, Purcellville, Virginia.

Coelho, G.M. and D.V. Aurand, Eds. 1997. Proceedings of the Sixth Meeting of the Chemical Response to Oil Spills: Ecological Effects Research Forum. Ecosystem Management and Associates, Purcellville, Virginia.

Coelho, G., D. Aurand and D.A. Wright. 1999. Biological uptake analysis of organisms exposed to oil and chemically dispersed oil. Pp. 685–694 in Proceedings of the Twenty-Second Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Cohen, A.M. and D. Nugegoda. 2000. Toxicity of three oil spill remediation techniques to the Australian bass Macquaria novemaculeata. Ecotoxicology and Environmental Safety 47(2): 178–185.

Cohen, A.M., D. Nugegoda and M.M. Gagnon. 2001a. Metabolic Responses of Fish Following Exposure to Two Different Oil Spill Remediation Techniques. Ecotoxicology and Environmental Safety 48:306–310.

Cohen, A.M., D. Nugegoda and M.M. Gagnon. 2001b. The Effect of Different Oil Spill Remediation Techniques on Petroleum Hydrocarbon Elimination in Australian Bass (Macquaria novemaculeata). Archives of Environmental Contamination and Toxicology 40: 264–270.

Cohen, A., M.M. Gagnon and D. Nugegoda. 2003. Biliary PAH metabolite elimination in Australian bass, Macquaria novemaculeata, following exposure to bass straight crude oil and chemically dispersed crude oil. Bulletin of Environmental Contamination and Toxicology 70(2):394–400.

Conover, R.J. 1971. Some relations between zooplankton and Bunker C oil in Chedabucto Bay following the wreck of the tanker Arrow. Journal of the Fisheries Research Board Canada 28:1327–1330.

Cook, C.B. and A.H. Knap, 1983. The effects of crude oil and chemical dispersant on photosynthesis in the brain coral, Diploria strigosa. Marine Biology 78:21–27.

Cormack, D., B.W.J. Lynch and B.D. Dowsett. 1987. Evaluation of dispersant effectiveness. Oil and Chemical Pollution 3:87–103.

Coutou, E.I. Castritis-Catharios and M. Moraitou-Apostolopoulo. 2001. Surfactant-based oil dispersant toxicity to developing nauplii of Artemia: effects on ATPase enzymatic system. Chemosphere 42:959–964.

CRC. 1967. CRC Handbook of Chemistry and Physics: A Ready-Reference Book of Chemical and Physical Data. Forty-eighth edition. R.C. Weast and S.M Selby, eds. The Chemical Rubber Company, Cleveland, Ohio.

Crowell, M.J. and P.A. Lane. 1988. The Effects of Crude Oil and the Dispersant Corexit 9527 on the Vegetation of a Nova Scotian Saltmarsh: Impacts After Two Growing Seasons. Report no. EE-103, Environment Canada, Ottawa, Ontario, Canada.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Csanady, G.T. 1973. Turbulent Diffusion in the Environment. Reidel Publishing Company, Boston, Massachusetts.


Daling, P.S. 1988. A study of the chemical dispersibility of fresh and weathered crudes. Pp. 481–499 in Proceedings of the Eleventh Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Daling, P.S. and P.J. Brandvik. 1989. The effects of photolysis on oil slicks. SINTEF Group, Trondheim, Norway.

Daling, P.S. and R. Lichtenthaler. 1987. Chemical dispersion of oil. Comparison of the effectiveness results obtained in laboratory and small-scale field tests. Oil & Chemical Pollution 3:87–103.

Daling, P.S., D. Mackay, N. Mackay and P.J. Brandvik. 1990a. Droplet size distributions in chemical dispersion of oil spills: towards a mathematical model. Oil and Chemical Pollution 7:173–198.

Daling, P.S., P.J. Brandvik, D. Mackay and O. Johansen. 1990b. Characterization of crude oils for environmental purposes. Pp. 119–138 in Proceedings of the Thirteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Daling, P.S., O.M. Aamo, A. Lewis and T. Strom-Kritiansen. 1997. SINTEF/IKU Oil-Weathering Model: Predicting Oil’s Properties at Sea. Pp. 297–307 in Proceedings of the 1997 International Oil Spill Conference, Fort Lauderdale, Florida. American Petroleum Institute, Washington, D.C.

Daling, P.S., P.J. Brandvik and M. Reed. 1998. Dispersant experience in Norway: Dispersant effectiveness, monitoring, and fate of dispersed oil. Dispersant Application in Alaska: A Technical Update . Prince William Sound Oil Spill Recovery Institute, Cordova, Alaska.

Dames and Moore. 1978. Drilling fluid dispersion and biological effects study for the Lower Cook Inlet C.O.S.T. well. Report prepared for the Atlantic Richfield Company. Dames and Moore Group, Los Angeles, California.

Davies, L., F. Daniel, R.P.J. Swannell and J.F. Braddock. 2001. Biodegradability of chemically-dispersed oil. A report prepared for the Minerals Management Service, Alaska Department of Environmental Conservation, and the United States Coast Guard. Minerals Management Service, Herndon, Virginia.

Delaune, R.A., C.J. Smith, W.H. Patrick, J.W. Fleeger and M.D. Tolley. 1984. Effect of oil on salt marsh biota: Methods for restoration. Environmental Pollution 36(3)207–227.

Delvigne, G.A.L. 2002. Physical appearance of oil in oil-contaminated sediment. Spill Science and Technology Bulletin 8(1)55–63.

Delvigne, G.A.L. and C.E. Sweeney. 1988. Natural dispersion of oil. Oil and Chemical Pollution 4:281–310.

Delvigne, G.A.L., J.A. Roelvink and C.E. Sweeney. 1986. Research on vertical turbulent dispersion of oil droplets and oiled particles—Literature review. OCS Study MMS 86-0029. Report to Minerals Management Service. Minerals Management Service, Anchorage, Alaska.

Delvigne, G.A.L., J.A.Van der Stel and C.E. Sweeney. 1987. Measurements of vertical turbulent dispersion and diffusion of oil droplets and oiled particles. OCS Study MMS 87-111. Minerals Management Service, Anchorage, Alaska.

Deneer, J.W., T. Sinnige, W. Seinen and J.L.M. Hermens. 1988. The joint acute toxicity to Daphnia magna of industrial organic chemicals at low concentrations. Aquatic Toxicology 12:33–38.

DiToro, D.M., C.S. Zarba, D.J. Hansen, W.J. Berry, R.C. Swartz, C.E. Cowan, S.P. Pavlou, H.E. Allen, N.A. Thomas and P.R. Paquin. 1991. Technical basis for establishing sediment quality criteria for nonionic organic chemicals using equilibrium partitioning. Journal of Environmental Toxicology and Chemistry 10:1541–1583.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

DiToro, D.M., J.A. McGrath and D.J. Hansen. 2000. Technical basis for narcotic chemicals and polycyclic aromatic hydrocarbon criteria. I. Water and tissue. Journal of Environmental Toxicology and Chemistry 19:1951–1970.

Dodge, R.E., S.C. Wyers, H.R. Frith, A.H. Knap, S.R. Smith and T.D. Sleeter. 1984. Effects of oil and oil dispersants on the skeletal growth of the hermatypic coral Diplora strigosa. Coral Reefs 3(4):191–198.

Dodge, R.E., B.J. Baca, A.H. Knap, S.C. Snedaker and T.D. Sleeter. 1995. The Effects of Oil and Chemically Dispersed Oil in Tropical Ecosystems: 10 Years of Monitoring Experimental Sites. Technical Report Series 95-014. Marine Spill Response Corporation, Washington, D.C.

Doron, P., L. Bertuccioli, J. Katz and T.R. Osborn. 2001. Turbulence characteristics and dissipation estimates in the coastal ocean bottom boundary layer from PIV data. Journal of Physical Oceanography 31(8):2108–2134.

Duesterloh, W., J.W. Short and M.G. Barron. 2002. Photoenhanced toxicity of weathered Alaska North Slope crude oil to the calanoid copepods Calanus marshallae and Metridia okhotensis. Environmental Science and Technology 36:3953–3959.

Duke, N.C. and K.A. Burns. 1999. Fate and effects of oil and dispersed oil on mangrove ecosystems in Australia. Report to the Australian Petroleum Production Exploration Association. Australian Institute of Marine Science, Townsville, Queensland, Australia and CRC Reef Research Centre, James Cook University, Townsville, Queensland, Australia. [Online] Available at: http://www.aims.gov.au/pages/research/mangroves/fae/fae01.html [February 14, 2005].

Duke, N.C., Z.S. Pinzon and M.C. Prada T. 1997. Large-scale damage to mangrove forests following two large oil spills in Panama. Biotropica 29:2–14.

Duke, N.C., K.A. Burns and O. Dalhaus. 1998a. Effects of oils and dispersed-oils on mangrove seedlings in planthouse experiments: a preliminary assessment of results two months after oil treatments. Australian Petroleum Production and Exploration Association Limited Journal 38:631–636.

Duke, N.C., K.A. Burns, J.C. Ellison, R.J. Rupp and O. Dalhaus. 1998b. Effects of oil and dispersed-oil mixtures on mature mangroves in field trials at Gladstone. Australian Petroleum Production and Exploration Association Limited Journal 38:637–645.

Duke, N.C., J.C. Ellison and K.A. Burns. 1998c. Surveys of oil spill incidents affecting mangrove habitat in Australia: a preliminary assessment of incidents, impacts on mangroves, and recovery of deforested areas. Australian Petroleum Production and Exploration Association Limited Journal 38:646–654.

Duke, N.C., K.A. Burns and R.P.J. Swannell. 1999. Research into the bioremediation of oil spills in tropical Australia: with particular emphasis on oiled mangrove and salt marsh habitat. Final Report to the Australian Maritime Safety Authority. Australian Institute of Marine Science, Townsville, Queensland, Australia and AEA Technology, Oxfordshire, United Kingdom.

Duke, N.C., K.A. Burns, R.P.J. Swannell, O. Dalhaus and R.J. Rupp. 2000. Dispersant use and a bioremediation strategy as alternate means of reducing impacts of large oil spills on Mangroves: The Gladstone Field Trials. Marine Pollution Bulletin 41:7–12, 403–412.

Dutka, B.J. and K.K. Kwan. 1984. Study of long term effects of oil and oil-dispersant mixtures on freshwater microbial populations in man made ponds. Science of the Total Environment 35:135–148.

Duval, W.S., L.A. Harwood and R.P. Fink. 1982. The sublethal effects of dispersed oil on an estuarine isopod. Technology Development Report, EPS-4-EC-82-1. Environment Canada, Ottawa, Ontario, Canada.


Ecological Steering Group on the Oil Spill in Shetland. 1994. The Environmental Impact of the Wreck of the Braer. Scottish Office, Edinburgh, United Kingdom.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Eganhouse, R.P. and J.A. Calder. 1976. The solubility of medium molecular weight aromatic hydrocarbons and the effects of hydrocarbon co-solutes and salinity. Geochimica et Cosmochimica Acta 40:555–561.

Elliott, A.J., N. Hurford and C.J. Penn. 1986. Shear diffusion and the spreading of oil slicks. Marine Pollution Bulletin 17(7):308–313.

Environment Canada. 2005. Oil Properties Database. Environment Canada, Ottawa, Ontario, Canada. [Online] Available at: http://www.etcentre.org/databases/spills_e.html [April 18, 2005].

Environmental Protection Agency (EPA). 1992. Peer Review Workshop Report on a Framework for Ecological Risk Assessment. U.S. Environmental Protection Agency, Risk Assessment Forum, Washington, D.C.

Environmental Protection Agency (EPA). 2001. EPA requirements for quality assurance project plans. EPA QA/R-5, EPA/240/B-01/003. U.S. Environmental Protection Agency, Office of Environmental Information, Washington D.C.

Environmental Protection Agency (EPA). 2002a. Short-Term Methods for Estimating the Chronic Toxicity of Effluents and Receiving Waters to Freshwater Organisms. EPA-821-R-02-013. U.S. Environmental Protection Agency, Washington D.C. [Online] Available at: http://www.epa.gov/waterscience/WET/disk3/ [April 27, 2005].

Environmental Protection Agency (EPA). 2002b. Methods for Measuring the Acute Toxicity of Effluents and Receiving Waters to Freshwater and Marine Organisms. EPA-821-R-02-012. U.S. Environmental Protection Agency, Washington D.C. [Online] Available at: http://www.epa.gov/waterscience/WET/disk2/ [April 27, 2005].

Environmental Protection Agency (EPA). 2003. Swirling flask dispersant effectiveness test. Pp. 224–229 in Code of Federal Regulations Title 40: Protection of the Environment (40 CFR). Pt. 300, Appendix C. Federal Register, Washington, D.C. [Online] Available at: http://www.epa.gov/epahome/cfr40.htm [March 23, 2005].

Environmental Protection Agency (EPA). 2005. Terms of Environment. Environmental Protection Agency, Washington, D.C. [Online] Available at: http://www.epa.gov/OCEPAterms/ [April 27, 2005].

Epstein, N., R.P.M. Bak and B. Rinkevich. 2000. Toxicity of third generation dispersants and dispersed Egyptian crude oil on Red Sea coral larvae. Marine Pollution Bulletin 40:497–503.

Etkin, D.S. 1999. Oil spill dispersants: From technology to policy. Cutter Information Corporation, Arlington, Massachusetts.

Exxon. 1992. Exxon Oil Spill Response Manual. Exxon Production Research Company, Houston, Texas.

Exxon Biomedical Sciences Incorporated. 1992. Microtox® toxicity tests. Test material: Corexit 9527. Technical report. ExxonMobile, East Millstone, New Jersey.

Exxon Biomedical Sciences Incorporated 1993a. Mysid acute toxicity test. Flowthrough continuous exposure with Mysidopsis bahia. Test material: Corexit 9527. Technical report. ExxonMobile, East Millstone, New Jersey.

Exxon Biomedical Sciences Incorporated. 1993b. Mysid acute toxicity test. Continuous exposure with Holmesimysis costata. Test material: Corexit® 9527. Technical report. ExxonMobile, East Millstone, New Jersey.

Exxon Biomedical Sciences Incorporated. 1993c. Mysid acute toxicity test. Flowthrough continuous exposure with Holmesimysis costata. Test material: Corexit 9527. Technical report. ExxonMobile, East Millstone, New Jersey.

Exxon Biomedical Sciences Incorporated. 1993d. Fish acute toxicity test flow-through continuous exposure with Menidia beryllina. Test material: Corexit 9527. Technical report. ExxonMobile, East Millstone, New Jersey.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

ExxonMobil. 2000. Dispersant Guidelines. ExxonMobil Research and Engineering Company, Fairfax, Virginia.


Fannelop, T.K. and K. Sjoen. 1980. Hydrodynamics of underwater blowouts. Norwegian Maritime Researh 4:17–33.

Fay, J.A. 1969. The spread of oil slicks on a calm sea. Pp. 53–63 in Oil on the Sea, D.P. Hoult, ed. Plenum Press, New York, New York.

Fiest, D.L. and P.D. Boehm. 1980. Subsurface distributions of petroleum from an offshore well blowout, Bay of Campeche. Pp. 169–185 in Symposium on Preliminary Results from the September 1979 Researcher/Pierce IXTOC I Cruise. Key Biscayne, Florida. National Oceanic and Atmospheric Administration Publications Office, Boulder, Colorado.

Fingas, M. 1985. The effectiveness of oil spill dispersants. Spill Technology Newsletter 10(4-6):47–64.

Fingas, M. 1996. The evaporation of crude oil and petroleum products. Ph.D. Thesis, McGill University, Montreal, Canada.

Fingas, M. 1997. The evaporation of oil spills: Prediction of equations using distillation data. Pp. in 1–20 Proceedings of the Twentieth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M. 1999a. The evaporation of oil spills: Development and implementation of new prediction methodology. Pp. 281–287 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Fingas, M. 1999b. In-Situ Burning of Oil Spills: A Historical Perspective. Pp. 55–65 in Workshop Proceedings In-Situ Burning of Oil Spills, New Orleans, Louisiana. NIST Special Publication 935. National Institute of Standards and Technology, Gaithersburg, Maryland.

Fingas, M. 2002a. A review of literature related to oil spill dispersants especially relevant to Alaska. Report prepared for the Prince William Sound Regional Citizens’ Advisory Council. Prince William Sound Regional Citizens’ Advisory Council, Anchorage, Alaska.

Fingas, M. 2002b. A white paper on oil spill dispersant field testing. Report prepared for the Prince William Sound Regional Citizens’ Advisory Council. Prince William Sound Regional Citizens’ Advisory Council, Anchorage, Alaska.

Fingas, M. 2003. Review of monitoring protocols for dispersant effectiveness. Report prepared for the Prince William Sound Regional Citizens’ Advisory Council. Prince William Sound Regional Citizens’ Advisory Council, Anchorage, Alaska.

Fingas, M. 2004a. Dispersant tank testing—A review of procedures and considerations. Pp. 1003–1016 in Proceedings of the Twenty-Seventh Arctic Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M. 2004b. Energy and work input in laboratory vessels. Pp. 1–18 in Proceedings of the Twenty-Seventh Arctic Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M. and B. Fieldhouse. 1994. Studies of water-in-oil emulsions and techniques to measure emulsion treating agents. Pp. 233–244 in Proceedings of the Seventeenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M. and B. Fieldhouse. 2003. Studies of the formation process of water-in-oil emulsions. Marine Pollution Bulletin 47:369–396.

Fingas, M. and B. Fieldhouse. 2004a. Modeling of water-in-oil emulsions. Pp. 335–350 in Proceedings of the Twenty-Seventh Arctic Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Fingas, M. and B. Fieldhouse. 2004b. Formation of water-in-oil emulsions and application to oil spill modeling. Journal of Hazardous Materials 107:37–50.

Fingas, M. and L. Ka’aihue. 2004a. Weather windows for oil spill countermeasures. Pp. 881–955 in Proceedings of the Twenty-Seventh Arctic Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M. and L. Ka’aihue. 2004b. Dispersant field testing—a review of procedures and considerations. Pp. 1017–1046 in Proceedings of the Twenty-Seventh Arctic Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M. and L. Ka’aihue. 2004c. Dispersant tank testing—a review of procedures and considerations. Pp. 1003–1016 in Proceedings of the Twenty-Seventh Arctic Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M. and N. Laroche. 1991. An Introduction to In-Situ Burning of Oil Spills. Paper presented at In-Situ Burning Workshop, Sacramento, California, May 21–22, 1991, unpublished.

Fingas, M. and M. Punt. 2000. In-situ burning: a cleanup technique for oil spills on water. Environment Canada Special Publication, Ottawa, Ontario, Canada.

Fingas, M. and M. Sydor. 1980. Development of an Oil Spill model for the St. Lawrence River. Technical Bulletin No. 116. Environment Canada, Inland Waters Directorate, Water Planning and Management Branch, Ottawa, Ontario, Canada.

Fingas, M.F., D.L. Munn, B. White, R.G. Stoodley and I.D. Crerar. 1989. Laboratory testing of dispersant effectiveness: the importance of oil-to-water ratio and settling time. Pp. 365–373 in Proceedings of the 1989 International Oil Spill Conference, San Antonio, Texas. American Petroleum Institute, Washington, D.C.

Fingas, M.F., B. Kolokowski and E.J. Tennyson. 1990. Study of oil spill dispersants effectiveness and physical studies. Pp. 265–287 in Proceedings of the Thirteenth Arctic Marine Oil Spill Program (AMOP) Technical Seminar. Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M., I. Bier, M. Bobra and S. Callaghan. 1991. Studies on the physical and chemical behavior of oil and dispersant mixtures. Pp. 411–414 in Proceedings of the 1991 Oil Spill Conference, San Diego, California. American Petroleum Institute, Washington, D.C.

Fingas, M.F., D.A. Kyle, Z. Wang and F. Ackerman. 1994. Testing of oil spill dispersant effectiveness in the laboratory. Pp. 905–933 in Proceedings of the Seventeenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M., B. Fieldhouse and J.V. Mullin. 1995a. Water-in-oil emulsions: How they are formed and how they are broken. Pp. 829–830 in Proceedings of the 1995 International Oil Spill Conference, Long Beach, California. American Petroleum Institute, Washington, D.C.

Fingas, M., B. Fieldhouse, L. Gamble and J.V. Mullin. 1995b. Studies of water-in-oil emulsions: Stability, classes, and measurement. Pp. 21–42 in Proceedings of the Seventeenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M.F., D.A. Kyle, P. Lambert, Z. Wang and J.V. Mullin. 1995c. Analytical procedures for measuring oil spill dispersant effectiveness in the laboratory. Pp. 339–354 in Proceedings of the Eighteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M.F., D. Kyle and E. Tennyson. 1995d. Dispersant effectiveness: Studies into the causes of effectiveness variations. Pp. 92–132 in The Use of Chemicals in Oil Spill Re-

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

sponse, ASTM STP 1252, P. Lane, Ed. American Society for Testing and Materials, Philadelphia, Pennsylvania.

Fingas, M.F., E. Huang, B. Fieldhouse, L. Wang and J.V. Mullin. 1996a. The effect of energy, settling time and shaking time on the swirling flask dispersant apparatus. Spill Science and Technology Bulletin 3(4):193–194.

Fingas, M., B. Fieldhouse and J.V. Mullin. 1996b. Studies of water-in-oil emulsions: The role of asphaltenes and resins. Pp. 73–88 in Proceedings of the Nineteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M., B. Fieldhouse and J.V. Mullin. 1998. Studies of water-in-oil emulsions: Stability and oil properties. Pp. 1–25 in Proceedings of the Twenty-First Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M., B. Fieldhouse and J. Mullin. 1999. Studies of water-in-oil emulsions: Energy threshold on emulsion formation. Pp. 57–68 in Proceedings of the Twenty-Second Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M., B. Fieldhouse, J. Lane, and J. Mullin. 2000a. Studies of water-in-oil emulsions: Long-term stability, oil properties, and emulsions formed at sea. Pp. 145–160 in Proceedings of the Twenty-Third Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M., B. Fieldhouse, J. Lane and J. Mullin. 2000b. Studies of water-in-oil emulsions: Energy and work threshold for emulsion formation. Pp. 19–36 in Proceedings of the Twenty-Third Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M.F., B. Fieldhouse, P. Lambert, Z. Wang, J. Noonan, J. Lane and J.V. Mullin. 2002a. Water-in-oil emulsions formed at sea, in test tanks, and in the laboratory. Environment Canada Manuscript Report EE-169. Environment Canada, Ottawa, Ontario, Canada.

Fingas, M.F., B. Fieldhouse, J. Noonan, P. Lambert, J. Lane and J. Mullin. 2002b. Studies of water-in-oil emulsions: testing of emulsion formation in OHMSETT, year II. Pp. 29–44 in Proceedings of Twenty-Fifth Arctic and Marine Oilspill Technical Seminar, Calgary, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Fingas, M.F., B. Fieldhouse and Z. Wang. 2003a. The long term weathering of water-in-oil emulsions. Spill Science and Technology Bulletin 8(2) 137–143.

Fingas, M., Z. Wang, B. Fieldhouse and P. Smith. 2003b. The correlation of chemical characteristics of an oil to dispersant effectiveness. Pp. 679–730 in Proceedings of the Twenty-Sixth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Victoria, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fiocco, R., P.S. Daling, G. DeMarco, R.R. Lessard and G.P. Canevari. 1999. Chemical dispersibility of heavy Bunker Fuel oil. Pp. 173–186 in Proceedings of the Twenty-Second Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fischer, H.B., E.J. List, R.C.Y. Koh, J. Imberger and N.H. Brooks. 1979. Mixing in Inland and Coastal Waters, Academic Press, New York, New York.

Foght, J.M. and D.W.S. Westlake. 1982. Effect of the dispersant Corexit 9527 on the microbial degradation of Prudhoe Bay oil. Canadian Journal of Microbiology 28:117–122.

Foght, J.M., P.M. Fedorak and D.W.S. Westlake. 1983. Effect of the dispersant Corexit 9527 on the microbial degradation of sulfur heterocycles in Prudhoe Bay oil. Canadian Journal of Microbiology 61:623–627.

Foght, J.M., N.J. Fairbairn and D.W.S. Westlake. 1987. Effect of oil dispersants on microbially-mediated processes in freshwater systems. Pp. 252–263 in Oil in Freshwater: Chemistry,

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Biology, Countermeasure Technology, J.H. Vandermeulen and S.E. Hrudey. Pergamon Press, Oxford, England.

Foght, J.M., D.L. Gutnick and D.W.S. Westlake. 1989. Effect of emulsan on biodegradation of crude oil by pure and mixed bacterial cultures. Applied and Environmental Microbiology 55(1):36–42.

Foy, M.G. 1982. Acute lethal toxicity of Prudhoe Bay Crude oil and Corexit 9527 to Arctic marine fish and invertebrates. Technology Development Report, EPS 4-EC-82-3. Environment Canada, Ottawa, Ontario, Canada.

Franklin, F.L. and R. Lloyd. 1986. The relationship between oil droplet size and the toxicity of dispersant/oil mixtures in the Standard MAFF “Sea” test. Oil & Chemical Pollution 3:37–52.

Franks, F. 1966. Solute-water interactions and the solubility behavior of long-chain paraffin hydrocarbons. Nature 210:87–88.

French-McCay, D.P. 1998. Modeling the Impacts of the North Cape Oil Spill. Pp. 378–430 in Proceedings of the Twenty-first Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

French-McCay, D.P. 2001. Development and application of an oil toxicity and exposure model, OilToxEx. Report prepared for the National Oceanic and Atmospheric Administration, Damage Assessment Center. National Oceanic and Atmospheric Administration, Silver Spring, Maryland.

French-McCay, D.P. 2002. Development and application of an oil toxicity and exposure model, OilToxEx. Journal of Environmental Toxicology and Chemistry 21:2080–2094.

French-McCay, D.P. 2003. Development and Application of Damage Assessment Modeling: Example Assessment for the North Cape Oil Spill. Marine Pollution Bulletin 47(9-12):341–359.

French-McCay, D.P. 2004. Oil spill impact modeling: Development and validation. Journal of Environmental Toxicology and Chemistry 23(10):2441–2456.

French-McCay, D.P. and J.R. Payne. 2001. Model of oil fate and water concentrations with and without application of dispersants. Pp. 611–645 in Proceedings of the Twenty-Fourth Arctic and Marine Oilspill (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

French-McCay, D.P. and H. Rines. 1997. Validation and use of spill impact modeling for impact assessment. Pp. 829–834 in Proceedings of the 1997 International Oil Spill Conference, Fort Lauderdale, Florida. American Petroleum Institute, Washington, D.C.

French-McCay, D.P., M. Reed, K. Jayko, S. Feng, H. Rines, S. Pavignano, T. Isaji, S. Puckett, A. Keller, F.W. French III, D. Gifford, J. McCue, G. Brown, E. MacDonald, J. Quirk, S. Natzke, R. Bishop, M. Welsh, M. Phillips and B.S. Ingram. 1996. The CERCLA Type A Natural Resource Damage Assessment Model for Coastal and Marine Environments (NRDAM/CME), Technical Documentation, Volume I–VI. Contract No. 14-0001-91-C-11. Final Report, submitted to the Office of Environmental Policy and Compliance, U.S. Department of the Interior, Washington, D.C.

Fucik, K.W., T.J. Bright and K.S. Goodman. 1984. Measurements of damage, recovery, and rehabilitation of coral reefs exposed to oil. Pp. 115–133 in Restoration of Habitats Impacted by Oil Spills, J. Cairns and A.L. Buikema, eds. Butterworth Press, London, England.

Fucik, K.W., K.A. Carr and B.J. Balcom. 1994. Dispersed oil toxicity tests with biological species indigenous to the Gulf of Mexico. OCS Study, MMS 94-0021, Report submitted to the Minerals Management Service, Gulf of Mexico Outer Continental Shelf (OCS) Region, New Orleans, Louisiana.

Fucik, K.W., K.A. Carr and B.J. Balcom. 1995. Toxicity of oil and dispersed oil to the eggs and larvae of seven marine fish and invertebrates from the Gulf of Mexico. Pp. 135–171 in The Use of Chemicals in Oil Spill Response, P. Lane, Ed. American Society for Testing and Materials, Philadelphia, Pennsylvania.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Fuller, C. and J.S. Bonner. 2001. Comparative Toxicity of Oil, Dispersant and Dispersed Oil to Texas Marine Species. Pp. 1243–1248 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Fuller, C., J. Bonner, T. McDonald, C. Page, G. Bragin, J. Clark, D. Aurand, A. Hernandez and A. Ernest. 1999. Comparative toxicity of simulated beach sediments impacted with both whole and chemical dispersions of weathered Arabian Medium crude oil. Pp. 659–670 in Proceedings of the Twenty-Second Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Fuller, C., J.S. Bonner, M.C. Sterling, T.O. Ojo and C.A. Page. 2003. Field instruments for real time in-situ crude oil concentration measurements. Pp. 755–764 in Proceedings of the Twenty-Sixth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Victoria, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.


Gagnon, R.M. and D.A. Holdaway. 2000. EROD induction and biliary metabolite excretion following exposure to the water accommodated fraction of crude oil and to chemically dispersed crude oil. Archives of Environmental Contamination and Toxicology 38(1):70–77.

Galt, J.A. 1995. The Integration of Trajectory Models and Analysis into Spill Response Systems: The Need for a Standard. Pp. 499–507 in Proceedings of the Second International Oil Spill Research and Development Forum, London England. International Maritime Organization (IMO), London, England.

Garcia, J.M., L.Y. Wick and H. Harms. 2001. Influence of the nonionic surfactant Brij 35 on the bioavailability of solid and sorbed dibenzofuran. Environmental Science & Technology 35(10):2033–2039.

Garrett, R.M., I.J. Pickering, E.H. Copper and R.C. Prince. 1998. Photooxidation of polycyclic aromatic hydrocarbons in crude oils. Pp. 99–114 in Proceedings of the Twenty-First Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Gearing, P.J. and J.N. Gearing. 1982a. Behavior of No. 2 fuel oil in the water column of controlled ecosystems. Marine Environmental Research 6:115–132.

Gearing, P.J. and J.N. Gearing. 1982b. Transport of No. 2 fuel oil between water column, surface microlayer, and atmosphere in controlled ecosystems. Marine Environmental Research 6:133–143.

Gearing, P.J., J.N. Gearing, R.J. Pruell, T.L. Wade and J.G. Quinn. 1980. Partitioning of No. 2 fuel oil in controlled ecosystems: Sediments and suspended particulate matter. Environmental Science and Technology 14:1129–1136.

George, S.E., G.M. Nelson, M.J. Kohan, S.H. Warren, B.T. Eischen and L.R. Brooks. 2001. Oral treatment of Fischer 344 rats with weathered crude oil and a dispersant influences intestinal metabolism and microbiota. Journal of Toxicology and Environmental Health, Part A 63:297–316.

George-Ares, A. and J.R. Clark. 2000. Aquatic toxicity of two Corexit® dispersants. Chemosphere 40:897–906.

George-Ares, A., J.R. Clark, G.R. Biddinger and M.L. Hinman. 1999. Comparison of Test Methods and Early Toxicity Characterization for Five Dispersants. Ecotoxicology and Environmental Safety 42:138–142.

Georgiades, E.T., D.A. Holdaway, S.E. Brennan, J.S. Butty and A. Temara. 2003. The impact of oil-derived products on the behaviour and biochemistry of the eleven-armed asteroid Coscinasterias muricata (Echinodermata). Marine Environmental Research 55:257–276.

Getter, C.D. and T.G. Ballou. 1985. Field experiments on the effects of oil and dispersant on mangroves. Pp. 577–582 in Proceedings of the 1985 International Oil Spill Conference, Los Angeles, California. American Petroleum Institute, Washington, D.C.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Gilfillan, E.S., D.S. Page and J.C. Foster. 1986. Tidal area dispersant project: Fate and Effects of Chemically Dispersed Oil in the Nearshore Benthic Environment. Final Report, Publication Number 4440. American Petroleum Institute, Washington, D.C.

Goodman, R.H. 2003. Is SMART Really that Smart. Pp. 779–786 in Proceedings of the Twenty-Sixth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Victoria, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Goodman, R.H. and M.F. Fingas. 1988. The use of remote sensing in the determination of dispersant effectiveness. Spill Technology Newsletter 13(3):55–58.

Goodman, R.H. and M.R. MacNeill. 1984. The use of remote sensing in the determination of dispersant effectiveness. Pp. 143–160 in Oil Spill Chemical Dispersants: Research, Experience, and Recommendations, T.E. Allen, Ed. American Society for Testing and Materials, Philadelphia, Pennsylvania.

Gordon, D.C., Jr., P.D. Keizer and N.J. Prouse. 1973. Laboratory studies of the accommodation of some crude and residual fuel oils in sea water. Journal of the Fisheries Research Board of Canada 30:1611–1618.

Gould, J.R. and J. Lindstedt-Siva. 1991. Santa Barbara to Mega Borg and beyond: A review of API’s spill program and priorities. Pp. 341–352 in Proceedings of the 1991 International Oil Spill Conference, San Diego, California. American Petroleum Institute, Washington, D.C.

Green, D.R., J. Buckley and B. Humphrey. 1982. Fate of chemically dispersed oil in the sea: A report on two field experiments. Environment Canada Report EPS 4-EC-82-5. Environment Canada, Ottawa, Ontario, Canada.

Gregory, C.L., A.A. Allen and D.H. Dale. 1999. Assessment of potential oil spill recovery capabilities. Pp. 527–534 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Grothe, D.R., K.L. Dickson, D.K. Reed-Judkins, Eds. 1996. Whole Effluent Toxicity Testing: An Evaluation of Methods and Prediction of Receiving System Impacts. Society of Environmental Toxicology and Chemistry Press, Pensacola, Florida.

Gugg, P.M., C.B. Henry and S.P. Glenn. 1999. Proving dispersants work. Pp. 1007–1010 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Gulec, I. and D.A. Holdaway. 2000. Toxicity of crude oil and dispersed crude oil to ghost shrimp Palaemon serenus and larvae of Australian Bass Macquaria novemaculeata. Environmental Toxicology 15:91–98.

Gulec, I., B. Leonard and D.A. Holdaway. 1997. Oil and Dispersed Oil Toxicity to Amphipods and Snails. Spill Science and Technology Bulletin 4:1–6.

Guyomarch, J., F.X. Merlin and S. Colin. 1999a. Study of the feasibility chemical dispersion of viscous oils and water-in-oil emulsions. Pp. 219–230 in Proceedings of the Twenty-Second Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Guyomarch, J., F.-X. Merlin and P. Bernanose. 1999b. Oil interaction with mineral fines and chemical dispersion: behaviour of the dispersed oil in coastal or estuarine conditions. Pp. 137–149 in Proceedings of the Twenty-Second Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Guyomarch, J., O. Kerfourn and F.X. Merlin. 1999c. Dispersants and demulsifiers: studies in the laboratory, harbor and polludrome. Pp. 195–202 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Guyomarch, J., S. Le Floch and F.-X. Merlin. 2002. Effect of suspended mineral load, water salinity and oil type on the size of oil–mineral aggregates in the presence of chemical dispersant. Spill Science & Technology Bulletin 8(1):95–100


Hammond, T.M., C. Pattiaratchi, D. Eccles, M. Osborne, L. Nash and M. Collins. 1987. Ocean Surface Current Radar (OSCR) Vector Measurements on Inner Continental Shelf. Continental Shelf Research 7:411–431.

Harris, C. 1997. The Sea Empress incident: overview and response at sea. Pp. 177–184 in Proceedings of the 1997 International Oil Spill Conference, Fort Lauderdale, Florida. American Petroleum Institute, Washington, D.C.

Hartwick, E.B., R.S.S. Wu and D.B. Parker. 1982. Effects of a crude oil and an oil dispersant Corexit 9527 on populations of the littleneck clam Protothaca staminea. Marine Environmental Research 6:291–306.

Henrichs, S., M. Luoma and S. Smith. 1997. A study of the adsorption of aromatic hydrocarbons by marine sediments. Final Report OCS Study MMS 97-0002. Report submitted to the Minerals Management Service, Gulf of Mexico Outer Continental Shelf (OCS) Region, New Orleans, Louisiana.

Henry, C. 2004. Response goals and the role of dispersants. Presentation to the National Research Council Committee on Understanding Oil Spill Dispersants: Efficacy and Effects, March 15–16, 2004, Washington, D.C., unpublished. National Research Council, Washington, D.C.

Henry, C. and P.O. Roberts. 2001. Background fluorescence values and matrix effects observed using SMART protocols in the Atlantic Ocean and Gulf of Mexico. Pp. 1203–1207 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Henry, C.B., P.O. Roberts and E.B. Owens. 1999. A primer on in-situ fluorimetry to monitor dispersed oil. Pp. 225–228 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Herbes, S.E. 1977. Partitioning of polycyclic aromatic hydrocarbons between dissolved and particulate phases in natural waters. Water Research 11:493–496.

Hill, P.S., A. Khelifa and K. Lee. 2003. Time scale for oil droplet stabilization by mineral particles in turbulent suspensions. Spill Science and Technology Bulletin 8(1):73–82.

Hillman, S.O., S.D. Hood, M.T. Bronson and G. Shufelt. 1997. Dispersant field monitoring procedures. Pp. 521–539 in Proceedings of the Twentieth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Ho, K., L. Patton, J.S. Latimer, R.J. Pruell, M. Pelletier, R. McKinney and S. Jayaraman. 1999. The chemistry and toxicity of sediment affected by oil from the North Cape spilled into Rhode Island Sound. Marine Pollution Bulletin 38:314–323.

Hodgins, D.O., R.H. Goodman and M.F. Fingas. 1993. Forcasting Surface Current Measured with HF Radar. Pp. 1083–1094 in Proceedings of the Sixteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Canada. Environment Canada. Ottawa, Ontario, Canada.

Hodson, P.V., D.G. Dixon and K.L.E. Kaiser. 1988. Estimating the Acute Toxicity of Waterborne Chemicals in Trout from Measurements of Median Lethal Dose and the Octanol-Water Partition Coefficient. Journal of Environmental Toxicology and Chemistry 7:443–454.

Hoffman, E.J. and J.G. Quinn. 1978. A comparison of Argo Merchant oil and sediment hydrocarbons from Nantucket Shoals. Pp. 80–88 in In the wake of the Argo Merchant—Proceedings of a Symposium. University of Rhode Island, Center for Ocean Management Studies, Kingston, Rhode Island.

Hoffman, E.J. and J.G. Quinn. 1979. Gas chromatographic analysis of Argo Merchant oil and sediment hydrocarbons at the wreck site. Marine Pollution Bulletin 10:20–24.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Hokstad, J.N., B. Knudsen and P.S. Daling. 1996. Oil-surfactant interaction and mechanism studies—Part 1: Leaching of surfactants form oil to water. Chemical composition of dispersed oil. IKU No. 22.2043.00/21/95, ESCOST report No. 21. SINTEF Group report to Esso Norge A.S. SINTEF Group, Trondheim, Norway.

Hoult, D.P. 1972. Oil spreading on the sea. Annual Review of Fluid Mechanics 4:341–367.

Howlett, E., K. Jayko and M. Spaulding. 1993. Interfacing Real-Time Information with OILMAP. Pp. 539–548 in Proceedings of the Sixteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Canada. Environment Canada. Ottawa, Ontario, Canada.

Huang, J.C. and F.C. Monastero. 1982. Review of the state-of-the-art of oil spill simulation models. Final report submitted by Raytheon Ocean Systems Company, East Providence, Rhode Island to the American Petroleum Institute, Washington, D.C. American Petroleum Institute, Washington, D.C.

Huang, W. and M. Spaulding. 1995. 3D model of estuarine circulation and water quality induced by surface discharges. Journal of Hydraulic Engineering, 121(4):300–311.

Humphrey, B., P.D. Boehm, M.C. Hamilton and R.J. Nordstrom. 1987. The fate of chemically dispersed and untreated crude oil in Arctic oil spill. Arctic 40 (Supplement 1):149–161.

Hurlbert, S.H. 1984. Pseudoreplication and the design of ecological field experiments. Ecological Monographs 54(2):187–211.


Ichiye, T. 1967. Upper ocean boundary-layer flow determined by dye diffusion. Physics of Fluids 10:270–277.

Inchcape Testing Services. 1995. Laboratory test data for Corexit 9500 and Corexit 9527. Inchcape Testing Services, Houston, Texas.

International Petroleum Industry Environmental Conservation Association (IPIECA). 2000. Choosing Spill Response Options to Minimize Damage—Net Environmental Benefit Analysis. IPIECA Report Series, Volume 10. International Petroleum Industry Environmental Conservation Association, London, England.


Jahns, H.O., J.R. Bragg, L.C. Dash and E.H. Owens. 1991. Natural Cleaning of Shorelines Following the Exxon Valdez Spill. Pp. 167–176 in Proceedings of the 1991 International Oil Spill Conference, San Diego, California. American Petroleum Institute, Washington, D.C.

Jasper, W.L., T.J. Kim and M.P. Wilson. 1978. Drop Size Distributions in a Treated Oil-Water System. Pp. 203–216 in Chemical Dispersants for the Control of Oil Spills, L.T. McCarthy, G.P. Lindblom and H.F. Walter, Eds. American Society for Testing and Materials, Philadelphia, Pennsylvania.

Jenssen, B.M. 1994. Review article: effects of oil pollution, chemically treated oil, and cleaning on the thermal balance of birds. Environmental Pollution 86:207–215.

Jenssen, B.M. and M. Ekker. 1991. Effects of plumage contamination with crude oil dispersant mixtures on thermoregulation in common eiders and mallards. Archives of Environmental Contamination and Toxicology 20:398–403.

Jezequel, R., S. Lefloch, F.-X. Merlin, J. Drewes and K. Lee. 1998. The influence of microorganisms on oil-mineral fine interactions in low energy coastal environment: Preliminary results. Pp. 957–962 in Proceedings of the Twenty-first Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Jezequel, R., F.-X. Merlin and K. Lee. 1999. The influence of microorganisms on oil-mineral fine interactions in low energy coastal environment. Pp. 771–775 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Johannes, R.E. 1975. Pollution and degradation of coral reef communities. Pp. 13–51 in Tropical Marine Pollution, E.J. Ferguson Wood and R.E. Johannes, Eds. Elsevier, New York, New York.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Johansen, O. 1984. The Halten Bank experiment—observations and model studies of drift and fate of oil in the marine environment, Pp. 18–36 in Proceedings of the Eleventh Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Johansen, O. 2000. DeepBlow—a Lagrangian plume model for deep water blowouts. Spill Science and Technology Bulletin 6(2):103–111.

Johansen, O. and I.M. Carlsen. 2002. Assessment of methods for dispensing dispersant into subsea blowouts. SINTEF Applied Chemistry, Trondheim, Norway.

Johansson, S.U., U. Larsson and P.D. Boehm. 1980. The Tsesis oil spill impact on the pelagic ecosystem. Marine Pollution Bulletin 11:284–293.

Jones, R.K. 1996. Method for estimating boiling temperatures of crude oils. Journal of Environmental Engineering 122(8):761–763.

Jones, R.K. 1997. A Simplified Pseudo-Component of Oil Evaporation Model. Pp. 43–61 in Proceedings of the Twentieth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Jordan, R.E. and J.R. Payne. 1980. Fate and Weathering of Petroleum Spills in the Marine Environment: A Literature Review and Synopsis. Ann Arbor Science Publishers, Incorporated, Ann Arbor, Michigan.


Kaku, V.J., M.C. Boufadel and A.D. Venosa. 2002. Evaluation of the mixing energy in the EPA flask tests for dispersants effectiveness. Pp. 211–218 in Oil Spills 2002. Wessex Institute of Technology, Ashurst, Southampton, United Kingdom. [Online] Available at: http://www.temple.edu/environment/Papers/kakugreece.pdf [December 20, 2004].

Karickhoff, S.W. 1981. Semi-empirical estimation of sorption of hydrophobic pollutants on natural sediments and soils. Chemosphere 10:833–846.

Kaser, R.M., J. Gahn and C. Henry. 2001. Blue Master: Use of Corexit 9500 to Disperse IFO 180 Spill. Pp. 815–819 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Kennedy, C.J., N.J. Gassman and P.J. Walsh. 1992. The fate of benzo[a]pyrene in the scleractinian corals Favia fragrum and Montastrea annularis. Marine Biology 112:313–318

Kennicutt, M.C. II, T.L. Wade, N.L. Guinasso, Jr. and J.M. Brooks. 1991. The Mega Borg Incident: A comparison of response, mitigation and impact. Pp. 275–280 in Proceedings of the 1991 Offshore Technology Conference, Houston, Texas. Offshore Technology Conference, Houston, Texas.

Kerr, C.L. and C.S. Barrientos, Eds. 1979. Workshop on the physical behavior of oil in the marine environment. Princeton University Press, Princeton, New Jersey.

Khelifa, A., P. Stoffyn-Egli, P.S. Hill and K. Lee. 2002. Characteristics of oil droplets stabilized by mineral particles: effect of oil types and temperature. Spill Science and Technology Bulletin 8(1):19–30.

Khelifa, A., P.S. Hill, L.O. Ajijolaiya and K. Lee. 2004. Modeling the effect of sediment size on OMA formation. Pp. 383–395 in Proceedings of the Twenty-Seventh Arctic Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Kiesling, R.W., S.K. Alexander and J.W. Webb. 1988. Evaluation of alternative oil-spill cleanup techniques in a Spartina-alterniflora salt-marsh. Environmental Pollution 55(3): 221–238.

Kirstein, B.E. 1992. Adaptation of the Minerals Management Service’s Oil-Weathering Model for Use in the Gulf of Mexico Region. Contract No. 14-35-0001-30537. Minerals Management Service, Gulf of Mexico Outer Continental Shelf (OCS) Region, New Orleans, Louisiana.

Knap, A.H. 1987. Effects of chemically dispersed oil on the brain coral Diploria strigosa. Marine Pollution Bulletin 18(3):119–122.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Knap, A.H., T.D. Sleeter, R.E. Dodge, S.C. Wyers, H.R. Frith and S.R. Smith. 1983. The effects of oil spills and dispersants use on corals: A review and multidisciplinary experimental approach. Oil and Petrochemical Pollution 1:157–169.

Knap, A.H., S.C. Wyers, R.E. Dodge, T.D. Sleeter, H.R. Frith, S.R. Smith and C.B. Cook. 1985. The effects of chemically and physically dispersed oil on the brain coral, Diploria strigosa (Dana). Pp. 547–551 in Proceedings of the 1985 International Oil Spill Conference, Los Angeles, California. American Petroleum Institute, Washington, D.C.

Knudsen, O.O., P.J. Brandvik and A. Lewis. 1994. Treating oil spills with W/O emulsion inhibitors—a laboratory study of surfactant leaching from the oil to the water phase. Pp. 1023–1034 in Proceedings of the Seventeenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada. Ottawa, Ontario, Canada.

Kochany, J. and R.J. Maguire. 1994. Abiotic Transformations of Polynuclear Aromatic Hydrocarbons and Polynuclear Aromatic Nitrogen Heterocycles in Aquatic Environments. Science of the Total Environment 144:17–31.

Koh, R.C.Y. and Fan, L-N. 1970. Mathematical models for the prediction of temperature distributions resulting from the discharge of heated water into large bodies of water. Report prepared under Contract 14-12-570 by Tetra Tech, Inc., Pasadena CA, for U.S. Environmental Protection Agency’s Water Quality Office. U.S. Environmental Protection Agency, Office of Water, Washington, D.C.

Kolluru, V.S., M.L. Spaulding and E.L. Spaulding. 1993. Application and Verification of Worldwide Oil Spill Model (WOSM) to Selected Spill Events. Pp. 573–585 in Proceedings of the Sixteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Canada. Environment Canada. Ottawa, Ontario, Canada.

Kovats, von E. 1958. Gas-Chromatographische Charakterisierung Organischer Verbindungen, Teil 1: Retentionsindices Aliphatischer Halogenide, Alkohole, Aldehyde und Ketone. Helvetica Chimica Acta 10:1915–1932.

Kraly, J., R.G. Pond, D.V. Aurand, G.M. Coelho, A.H. Walker, B. Martin, J. Caplis and M. Snowby. 2001. Ecological risk assessment principles applied to oil spill response planning. Pp. 177–183 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Kucklick, J.H. and D. Aurand. 1997. Historical dispersant and in-situ burning opportunities in the United States. Pp. 205–210 in Proceedings of the 1997 International Oil Spill Conference, Fort Lauderdale, Florida. American Petroleum Institute, Washington, D.C.


LaBelle, R.P. and W.R. Johnson, 1993. Stochastic Oil Spill Analysis for Cook Inlet/Shelikof Strait. Pp. 573–585 in Proceedings of the Sixteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Lai, H.C. and C.P. Lim. 1984. Comparative toxicities of various crude oils to mangroves. Pp. 12–138 in Fate and Effects of Oil in the Mangrove Environment, H.C. Lai and M.C. Feng, Eds. Universiti Sains Malaysia, Pulau Pinang, Malaysia.

Lambert, G., D.B. Peakall, B.J.R. Philogene and F.R. Engelhardt. 1982. Effect of oil and oil dispersant mixtures on the basal metabolic rate of ducks. Bulletin of Environmental Contamination and Toxicology 29:520–524.

Lambert, P., B. Fieldhouse, Z. Wang, M. Fingas, M. Goldthorp, L. Pearson and E. Collazzi. 2001a. A laboratory study of a flow-through fluorometer for measuring oil-in-water levels. Pp. 23–45 in Twenty-Fourth Arctic and Marine Oilspill (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Lambert, P., M. Goldthorp, B. Fieldhouse, Z. Wang, M.F. Fingas, L. Pearson and E. Collazzi. 2001b. A review of oil-in-water monitoring techniques. Pp. 1375–1380 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Landrum, P.F., J.P. Giesy, J.T. Oris and P.M. Allred. 1987. Photoinduced toxicity of polycyclic aromatic hydrocarbons to aquatic organisms. Pp. 304–318 in Oil in Freshwater, J.H. Vandermeulen and S.E. Hrudey, Eds. Pergamon Press, New York, New York.

Lane, P.A., J.H. Vandermeulen, M.J. Crowell and D.G. Patriquin. 1987. Impact of experimentally dispersed crude oil on vegetation in a northwestern Atlantic salt marsh-preliminary observations. Pp. 509–514 in Proceedings of the 1987 International Oil Spill Conference, Baltimore, Maryland. American Petroleum Institute, Washington, D.C.

LaRiviere, D.J., R.L. Autenrieth and J.S. Bonner. 2003. Redox dynamics during recovery of an oil-impacted estuarine wetland. Water Research 37:3307–3318.

Law, A.T. 1995. Toxicity study of the oil dispersant Corexit 9527 on Macrobrachium rosenbergii (de Man) egg hatchability by using a flow-through bioassay technique. Environmental Pollution 88:341–343.

Law, R., C.A. Kelly, K.L. Graham, R.J. Woodhead, P.E.J. Dyrynda and E.A. Dyrynda. 1997. Hydrocarbon and PAH in fish and shellfish from Southwest Wales following the Sea Empress oilspill in 1996. Pp. 205–211 in Proceedings of the 1997 International Oil Spill Conference, Fort Lauderdale, Florida. American Petroleum Institute, Washington, D.C.

Lawrence, A.S.C. and W. Killner. 1948. Emulsions of seawater in Admiralty fuel oil with special reference to their demulsification. Journal of the Institute of Petroleum 34(299):821–857.

Ledwell, J.R., A.J. Watson and C.S. Law. 1998. Mixing of a tracer in the pycncline, Journal of Geophysical Research 103(C10):21499–21529.

Lee, H. 1992. Models, muddles and mud: Predicting bioaccumulation of sediment associated pollutants. Pp. 267–293 in Sediment Toxicity Assessment, G.A. Burton, Ed. CRC Press, Boca Raton, Florida.

Lee, H.W., N. Kobayashi and C.-R. Ryu. 1990. Review on oil spills and their effects. Report Number CACR-90-03. Center for Applied Coastal Research, Department of Civil Engineering, University of Delaware, Newark, Delaware.

Lee, K. 2002. Oil-particle interactions in aquatic environments: influence on the transport, fate, effect and remediation of oil spills. Spill Science & Technology Bulletin 8(1):3–8.

Lee, K., C.S. Wong, W.J. Cretney, F.A. Whitney, T.R. Parsons, C.M. Lalli and J. Wu. 1985. Microbial response to crude oil and Corexit 9527: SEAFLUXES enclosure study. Microbial Ecology 11:337–351.

Lee, K., T. Lunel, P. Wood, R. Swannell and P. Stoffyn-Egli. 1997a. Shoreline cleanup by acceleration of clay-oil flocculation processes. Pp. 235–240 in Proceedings of the 1997 International Oil Spill Conference, Fort Lauderdale, Florida. American Petroleum Institute, Washington, D.C.

Lee, K., S. St-Pierre and A.M. Weise. 1997b. Enhanced oil biodegradation with mineral fine interaction. Pp. 715–722 in Proceedings of the Twentieth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Vancouver, British Columbia. Environment Canada, Ottawa, Ontario, Canada.

Lee, K., P. Stoffyn-Egli, P.A. Wood and T. Lunel. 1998. Formation and structure of oil-mineral fines aggregates in coastal environments. Pp. 911–921 in Proceedings of the Twenty-First Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Lee, K., P. Stoffyn-Egli and E.H. Owens. 2001. Natural dispersion of oil in a freshwater ecosystem: Desaguadero pipeline spill, Bolivia. Pp. 1445–1448 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Lee, K., P. Stoffyn-Egli and E.H. Owens. 2002. The OSSA II pipeline oil spill: natural mitigation of a riverine oil spill by oil–mineral aggregate formation. Spill Science and Technology Bulletin 7(3–4):149–154.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Leech, M., M. Walker, M. Wiltshire and A. Tyler. 1993. OSIS: A Windows 3 Oil Spill Information System. Pp. 549–572 in Proceedings of the Sixteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Le Floch, S., J. Guyomarch, F.-X. Merlin, P. Stoffyn-Egli, J. Dixon and K. Lee. 2002. The influence of salinity on oil-mineral aggregate formation. Spill Science & Technology Bulletin 8(1):65–71.

Legore, R.S., D.S. Marzalek, J.E. Hoffman and J.E. Cuddeback. 1983. A field experiment to assess impact of chemically dispersed oil on Arabian Gulf corals. Pp. 51–60 in Proceedings of the Middle East Oil Technical Conference, Manama, Bahrain. Society of Petroleum Engineers, Richardson, Texas.

Legore, S., D.S. Marszalek, L.J. Danek, M.S. Tomlinson, J.E. Hoffman and J.E. Cuddeback. 1989. Effect of chemically dispersed oil on Arabian Gulf corals: A field experiment. Pp. 375–380 in Proceedings of the 1989 International Oil Spill Conference, San Antonio, Texas. American Petroleum Institute, Washington, D.C.

Lehr, W. 1996. Progress in Oil Spread Modeling. Pp. 889–894 in Proceedings of the Nineteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Lehr, W.J., H.M. Cekirge, R.J. Fraga and M.S. Belen. 1984. Empirical studies of the spreading of oil spills. Oil and Petrochemical Pollution 2:7–12.

Lehr, W.J., R. Overstreet, R. Jones and G. Watabayashi. 1992. ADIOS-Automatic Data Inquiry for Oil Spills. Pp. 31–45 in Proceedings of the Fifteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Lehr, W.J., D. Wesley, D. Simecek-Beatty, R. Jones, G. Kachook and J. Lankford. 2000. Algorithm and interface modifications of the NOAA oil spill behavior model. Pp. 525–539 in Proceedings of the Twenty-Third Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Lehr, W., R. Jones, M. Evans, D. Simecek-Beatty and R. Overtreet. 2002. Revisions of the ADIOS oil spill model. Environmental Modeling and Software 17:191–199.

Leibovich, S. and J.L. Lumley. 1982. Interaction of turbulence and Langmuir cells in vertical transport of oil droplets. Pp. 271–276 in Proceedings of the First International Conference on Meteorology and Air/Sea Interaction of the Coastal Zone, The Hague, Netherlands. American Meteorological Society, Boston, Massachusetts.

Lessard, R.R., D.V. Aurand, G. Coelho, J.C. Clark, G. Bragin, C.M. Fuller, T.J. McDonald, R. Jamail and A. Steen. 1999. Design and implementation of a mesocosm experiment on the environmental consequences of nearshore dispersant use. Pp. 1027–1030 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Levine, E. 1999. Development and implementation of the dispersant observation job aid. Pp. 1015–1018 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Lewis, A. 2004. Experimental and field case studies in dispersant effectiveness. Presentation to the National Research Council Committee on Understanding Oil Spill Dispersants: Efficacy and Effects, March 15–16, 2004, Washington, D.C., unpublished. National Research Council, Washington, D.C.

Lewis, A. and D. Aurand. 1997. Putting Dispersants to work: Overcoming obstacles. Pp. 157–164 in Proceedings of the 1997 International Oil Spill Conference, Fort Lauderdale, Florida. American Petroleum Institute, Washington, D.C.

Lewis, A., P.S. Daling, R. Fiocco and A.B. Nordvik. 1994. Chemical dispersion of oil and water-in-oil emulsions—A comparison of bench-scale test methods and dispersant

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

treatment in meso-scale flume. Pp. 979–1010 in Proceedings of the Seventeenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada. Ottawa, Ontario, Canada.

Lewis, A., P.S. Daling, T. Strom-Kristiansen, A.B. Nordvik and R. Fiocco. 1995a. Weathering and chemical dispersion of oil at sea. Pp. 157–164 in Proceedings of the 1995 International Oil Spill Conference, Long Beach, California. American Petroleum Institute, Washington, D.C.

Lewis, A., P.S. Daling, T. Strom-Kristiansen and P.J. Brandvik. 1995b. The behavior of Sture blend crude oil spilled at sea and treated with dispersant. Pp. 453–469 in Proceedings of the Eighteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Lewis, A., A. Crosbie, L. Davies and T. Lunel. 1998a. Large scale field experiments into oil weathering at sea and aerial application of dispersants. Pp. 319–343 in Proceedings of the Twenty-first Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Lewis A., A. Crosbie, L. Davies and T. Lunel. 1998b. Dispersion of emulsified oil at sea. AEA Technology report. AEAT-3475. AEA Technology, National Environmental Technology Centre (NETCEN, Didcot, Oxfordshire, England.

Li, M. and C. Garrett. 1998. The relationship between oil droplet size and upper ocean turbulence. Marine Pollution Bulletin 36(12):961–970.

Linden, O., A. Rosemarin, A. Lindskog, C. Hoglund and S. Johansson. 1987. Effects of oil and oil dispersant on an enclosed marine ecosystem. Environmental Science and Technology 2:374–382.

Lindstedt-Siva, J. 1987. Advance planning for dispersant use. Pp. 329–333 in Proceedings of the 1987 International Oil Spill Conference, Baltimore, Maryland. American Petroleum Institute, Washington, D.C.

Lindstedt-Siva J. 1991. U.S. oil spill policy hampers response and hurts science. Pp. 349–352 in Proceedings of the 1991 International Oil Spill Conference, San Diego, California. American Petroleum Institute, Washington, D.C.

Lindstrom, J.E. and J.F. Braddock. 2002. Biodegradation of petroleum hydrocarbons at low temperature in the presence of the dispersant Corexit 9500. Marine Pollution Bulletin 44(8):739–747.

Lindstrom, J.E., D.M. White and J.F. Braddock. 1999. Biodegradation of dispersed oil using Corexit 9500. Report to the Alaska Department of Environmental Conservation, Division of Spill Prevention and Response. Alaska Department of Environmental Conservation, Juneau, Alaska.

Literathy, P., S. Haider, O. Samhan and G. Morel. 1989. Experimental studies on biological and chemical oxidation of dispersed oil in seawater. Water Science and Technology 21:845–856.

Little, D.I. and D.L. Scales. 1987a. Effectiveness of a type III dispersant on low-energy shorelines. Proceedings of the 1987 International Oil Spill Conference, Baltimore, Maryland. American Petroleum Institute, Washington, D.C.

Little, D.I. and D.L. Scales. 1987b. The persistence of oil stranded on sediment shorelines. Proceedings of the 1987 International Oil Spill Conference, Baltimore, Maryland. American Petroleum Institute, Washington, D.C.

Little, D.I. and D.L. Scales. 1987c. The effectiveness of a new type III dispersant in the treatment of weathered crude and emulsified fuel oils on saltmarshes and sandflats. Pp. 217–219 in Fate and Effects of Oil in Marine Ecosystems, J. Kuiper and W.J. Van Den Brink, Eds. Martinus Nijhoff Publishers, Dordrecht, The Netherlands.

Long, S.M. and D.A. Holdaway. 2002. Acute toxicity of crude and dispersed oil to Octopus pallidus (Hoyle, 1885) hatchlings. Water Research 36:2769–2776.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Louchouarn, P., J.S. Bonner, P. Tissot, T.J. McDonald, C.B. Fuller and C.A. Page. 2000. Quantitative determination of oil films/slicks from water surfaces using a modified solid-phase extraction (SPE) sampling method. Pp. 59–68 in Proceedings of the Twenty-Third Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Lunel, T. 1993. Dispersion: Oil droplet size measurement at sea. Pp. 1023–1056 in Proceedings of the Sixteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Lunel, T. 1994a. Dispersion of a large experimental slick by aerial application of dispersant. Pp. 951–979 in Proceedings of the Seventeenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada. Ottawa, Ontario, Canada.

Lunel, T. 1994b. Field trials to determine quantitative estimates of dispersant efficiency at sea. Pp. 1011–1022 in Proceedings of the Seventeenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada. Ottawa, Ontario, Canada.

Lunel, T. 1995a. Dispersant effectiveness at sea. Pp. 147–155 in Proceedings of the 1995 International Oil Spill Conference, Long Beach, California. American Petroleum Institute, Washington, D.C.

Lunel, T. 1995b. Understanding the mechanism of dispersion through oil droplet size measurements at sea. Pp. 240–285 in The Use of Chemicals in Oil Spill Response, ASTM STP 1252, P. Lane, Ed. American Society for Testing and Materials, Philadelphia, Pennsylvania.

Lunel, T. 1998. Sea Empress spill: Dispersant operations, effectiveness, and effectiveness monitoring. Pp. 59–78 in Proceedings of the Dispersant Use in Alaska: A Technical Update, Anchorage, Alaska. Prince William Sound Oil Spill Recovery Institute, Cordova, Alaska.

Lunel, T. and L. Davies. 1996. Dispersant effectiveness in the field on fresh oils and emulsions. Pp. 1355–1394 in Proceedings of the Nineteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Lunel, T. and A. Lewis. 1993a. Effectiveness of demulsifiers in sea trials: The use of fluorometry, surface sampling, and remote sensing to determine effectiveness. Pp. 179–202 in Formation and Breaking of Water-in-Oil Emulsions: Workshop Proceedings, A.H. Walker, D.L. Ducey, Jr, J.R. Gould and A.B. Nordvik, Eds. Marine Spill Response Corporation, Washington, D.C.

Lunel, T. and A. Lewis. 1993b. Oil concentrations below a demulsifier-treated slick. Pp. 955–972 in Proceedings of the Sixteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Lunel, T., G. Baldwin and F. Merlin. 1995a. Comparison of meso-scale and laboratory dispersant tests with dispersant effectiveness measured at sea. Pp. 629–651 in Proceedings of the Eighteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Lunel, T., L. Davies and P.J. Brandvik. 1995b. Field trials to determine dispersant effectiveness at sea. Pp. 603–627 in Proceedings of the Eighteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Lunel, T., L. Davies, A.C.T. Chen and R.A. Major. 1995c. Field test of dispersant application by fire monitor. Pp. 559–574 in Proceedings of the Eighteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Lunel, T.J., J. Rusin, N. Bailey, C. Halliwell and L. Davies. 1996. A successful at-sea response to the Sea Empress spill. Pp. 1499–1520 in Proceedings of the Nineteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Lunel, T.J. Rusin, N. Bailey, C. Halliwell and L. Davies. 1997a. The net environmental benefit of a successful dispersant application at the Sea Empress incident. Pp. 185–194 in Proceedings of the 1997 International Oil Spill Conference, Fort Lauderdale, Florida. American Petroleum Institute, Washington, D.C.

Lunel, T., P. Wood and L. Davies, 1997b. Dispersant effectiveness in field trials and in operational response. Pp. 923–926 in Proceedings of the 1997 International Oil Spill Conference, Fort Lauderdale, Florida. American Petroleum Institute, Washington, D.C.

Lyklema, J. 2000. Fundamentals of Interface and Colloid Science, Volume III: Liquid-Fluid Interfaces. Academic Press, Incorporated, San Diego, California.


Mackay, D. 1987. Formation and stability of water-in-oil emulsions. DIWO Report No. 1. IKU. SINTEF Group, Trondheim, Norway.

Mackay, D. 1993. Effectiveness of dispersants applied following the Exxon Valdez spill. Report from the University of Toronto for Exxon Company. ExxonMobil Research and Engineering Company, Fairfax, Virginia.

Mackay, D. 1995. Effectiveness of chemical dispersants under breaking wave conditions. Pp. 310–340 in Use of Chemicals in Oil Spill Response. ASTM special technical publication 1252. American Society of Testing Materials, Philadelphia, Pennsylvania.

Mackay, D. and A. Chau. 1986. The effectiveness of chemical dispersants: a discussion of laboratory and field tests results. Oil and Chemical Pollution 3:405–415.

Mackay, D. and K. Hossain. 1982. An exploratory study of naturally and chemically dispersed oil. EE-35. Report to Environment Canada. Environment Canada, Ottawa, Ontario, Canada.

Mackay, D. and P.J. Leinonen. 1977. Mathematical model of the behavior of oil spills on water with natural and chemical dispersion. Economic and Technical Review Report EPS-3-EC-77-19. Prepared Environment Canada. Environment Canada, Ottawa, Ontario, Canada.

Mackay, D. and R.M. Matsugu. 1973. Evaporation rates of liquid hydrocarbon spills on land and water. Canadian Journal of Chemical Engineering 8:434–439.

Mackay, D. and W.Y. Shiu. 1976. Aqueous solubilities of weathered northern crude oils. Bulletin of Environmental Contamination and Toxicology 15(1):101–109.

Mackay, D. and P.G. Wells. 1983. Effectiveness, behavior, and toxicity of dispersants. Pp. 65–71 in Proceedings of the 1983 International Oil Spill Conference, San Antonio, Texas. American Petroleum Institute, Washington, D.C.

Mackay, D., J.S. Nadeau and C. Ng. 1978. A small-scale laboratory dispersant effectiveness test. Pp. 35–49 in Chemical Dispersants for the Control of Oil Spills, L.T. McCarthy, G.P. Lindblom and H.F. Walter, Eds. American Society for Testing and Materials, Philadelphia, Pennsylvania.

Mackay, D., S. Paterson and K. Trudel. 1980a. A mathematical model of oil spill behavior. Publication EE-7. Report for Environment Canada. Department of Chemical and Applied Chemistry, University of Toronto, Canada.

Mackay, D., I. Buist, R. Mascarenhas and S. Paterson. 1980b. Oil spill processes and models. Publication EE-8. Report for Environment Canada. Environment Canada, Ottawa, Ontario, Canada.

Mackay, D, W.Y. Shiu, K. Hossain, W. Stiver, D. McCurdy and S. Peterson. 1982. Development and Calibration of an Oil Spill Behavior Model. Report No. CG-D-27-83. U.S. Coast Guard, Research and Development Center, Groton, Connecticut.

Mackay, D.A., A. Chau, K. Hossain and M. Bobra. 1984. Measurement and prediction of the effectiveness of oil spill chemical dispersants. Oil Spill Chemical Dispersants, Research Experience and Recommendations, T.E. Allen, Ed. ASTM special technical publication 840. American Society of Testing Materials, Philadelphia, Pennsylvania.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Mackay, D., H. Puig and L.S. McCarty. 1992. An equation describing the time course and variability in uptake and toxicity of narcotic chemicals to fish. Journal of Journal of Environmental Toxicology and Chemistry 11:941–951.

MacKinnon, D.S. and P.A. Lane. 1993. Saltmarsh revisited—The long-term effects of oil and dispersant on saltmarsh vegetation. Environmental Studies Research Fund, Report No. 122. National Energy Board, Calgary, Alberta, Canada.

MacNaughton, S.J., R.P.J. Swannell, F. Daniel and L. Bristow. 2003. Biodegradation of dispersed Forties crude and Alaskan North Slope oils in microcosms under simulated marine conditions. Spill Science and Technology Bulletin 8(2):179–186.

Major, R.A., A.C.T. Chen and P. Nicholson. 1994. Wave basin tests of boat dispersant application systems. Pp 1035–1051 in Proceedings of the Seventeenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Vancouver, British Columbia, Canada. Environment Canada. Ottawa, Ontario, Canada.

Malinky, G., and D.G. Shaw. 1979. Modeling the association of petroleum hydrocarbons and sub-arctic sediments. Pp. 621–623 in Proceedings of the 1979 International Oil Spill Conference, Los Angeles, California. American Petroleum Institute, Washington, D.C.

Marine and Freshwater Resources Institute. 1998. Toxicity and effectiveness of the oil spill dispersant Corexit 9500. Laboratory report. Marine and Freshwater Resources Institute, Queenscliff, Australia.

Masutani, S. and E. Adams. 2004. Liquid droplet contaminant plumes in the deep ocean. Japanese Journal of Multiphase Flow 18(2):135–152.

McAuliffe, C.D. 1963. Solubility in water of C1-C9 hydrocarbons. Nature 200:1092–1093.

McAuliffe, C.D. 1966. Solubility in water of paraffin, cycloparaffin, olefin, acetylene, cycloolefin, and aromatic hydrocarbons. Journal of Physical Chemistry 70:1267–1275.

McAuliffe, C.D. 1989. The weathering of volatile hydrocarbons from crude oil slicks on water. Pp. 357–364 in Proceedings of the 1989 International Oil Spill Conference, San Antonio, Texas. American Petroleum Institute, Washington, D.C.

McAuliffe, C.D., B.L. Steelman, W.R. Leek, D.E. Fitzgerald, J.P. Ray and C.D. Barker. 1981. The 1979 Southern California Dispersant Treated Research Oil Spills. Pp. 269–282 in Proceedings of the 1981 International Oil Spill Conference, Atlanta, Georgia. American Petroleum Institute, Washington, D.C.

McCarty, L.S. 1986. The relationship between aquatic toxicity QSARs and bioconcentration for some organic chemicals. Journal of Environmental Toxicology and Chemistry 5:1071–1080.

McCarty, L.S. and D. Mackay. 1993. Enhancing ecotoxicological modeling and assessment. Environmental Science and Technology 27(9):1719–1728.

McCarty, L.S., D. Mackay, A.D. Smith, G.W. Ozburn and D.G. Dixon. 1992. Residue-based Interpretation of Toxicity and Bioconcentration QSARs from Aquatic Bioassays: Neutral Narcotic Organics. Journal of Environmental Toxicology and Chemistry 11:917–930.

McDonagh, M. and K. Colcomb-Heiliger. 1992. Aerial spraying of demulsifiers to enhance the natural dispersion of oil slicks. Pp. 107–122 in Proceedings of the Fifteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

McGrath, J.A., F.L. Hellweger, T.F. Parkerton and D.M. Di Toro. 2003. Application of the Narcosis Target Lipid Model to Complex Mixtures Using Gasolines as a Case Study. Paper presented at the Annual Meeting of the Society of Environmental Toxicology and Chemistry (SETAC), Austin, Texas. Society of Environmental Toxicology and Chemistry, Pensacola, Florida.

McGrath, J.A., T.F. Parkerton and D.M. DiToro. 2004. Application of the narcosis target lipid model to algal toxicity and deriving predicted no-effect concentrations. Journal of Environmental Toxicology and Chemistry 23:2503–2517.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

McLean, J.D. and P.K. Kilpatrick. 1997a. Effects of asphaltene solvency on stability of water-in-crude-oil emulsions. Journal of Colloidal and Interfacial Science 189:242–255.

McLean, J.D. and P.K. Kilpatrick. 1997b. Effects of asphaltene aggregation in model heptane-toluene mixtures on stability of water-in-oil emulsions. Journal of Colloid and Interface Science 196:23–34.

McLean, J.D., P.M. Spiecker, A.P. Sullivan and P.K. Kilpatrick. 1998. The role of petroleum asphaltenes in the stabilization of water-in-oil emulsions. Pp. 377–422 in Structure and Dynamics of Asphaltenes, O.C. Mullins and E.Y. Sheu, Eds., Plenum Press, New York, New York.

McNaughton, S.J., R. Swannell, F. Daniel and L. Bristow. 2003. Biodegradation of dispersed Forties crude and Alaskan North Slope oils in microcosms under simulated marine conditions. Spill Science and Technology Bulletin 8:179–186.

Meeks, D.G. 1981. A view on the laboratory testing and assessment of oil spill dispersant efficiency. Pp. 19–29 in Proceedings of the 1981 International Oil Spill Conference, Atlanta, Georgia. American Petroleum Institute, Washington, D.C.

Menon, N.N. and N.R. Menon. 1999. Uptake of polycyclic aromatic hydrocarbons from suspended oil borne sediments by the marine bivalve Sunetta scripta. Aquatic Toxicology 45:63–69.

Michel, J. and C.B. Henry. 1997. Oil uptake and depuration in oysters after use of dispersants in shallow water in El Salvador. Spill Science and Technology Bulletin 4:57–70.

Michel, J., D. Scholz, S.R. Warren Jr. and A.H. Walker. 2004. A Decision-Maker’s Guide to In-situ Burning. American Petroleum Institute, Washington, D.C.

Middaugh, D.P. and D.D. Whiting. 1995. Responses of embryonic and larval inland silversides, Menidia beryllina, to No.-2 Fuel-oil and oil dispersants in seawater. Archives of Environmental Contamination and Toxicology 29(4):535–539.

Miller, R.M. and R. Bartha. 1989. Evidence from liposome encapsulation for transport-limited microbial metabolism of solid alkanes. Applied and Environmental Microbiology 55(2):269–274.

Mitchell, F.M. and D.A. Holdaway. 2000. The acute and chronic toxicity of the dispersants Corexit 9527 and 9500, water accommodated fraction (WAF) of crude oil and dispersant enhanced WAF (DEWAF) to Hydra viridissima (green hydra). Water Research 34:343–348.

Miura, Y., M. Okazaki, S.-I. Hamada, S.-I. Murakawa and R. Yugen. 1977. Assimilation of liquid hydrocarbons by microorganisms. I. Mechanism of hydrocarbon uptake. Biotechnology and Bioengineering 19:701–714.

Moles, A., L. Holland and J. Short. 2002. Effectiveness in the laboratory of Corexit 9527 and 9500 in dispersing fresh, weathered, and emulsion of Alaska North Slope crude oil under subarctic conditions. Spill Science and Technology Bulletin 7(5-6):241–247.

Montgomery, D.C. 1997. Design and Analysis of Experiments, Fourth Edition. John Wiley & Sons, Incorporated. New York, New York.

Morales, R.A., A.J. Elliot and T. Lunel. 1997. The Influence of Tidal Currents and Wind on Mixing in the Surface Layers on the Sea. Marine Pollution Bulletin 34(1):15–25.

Mulkins-Phillips, G.J. and J.E. Stewart. 1974. Effect of four dispersants on biodegradation and growth of bacteria on crude oil. Applied Microbiology 28(4):547–552.

Mulyono, M., E. Jasjfi and M. Maloringan. 1994. Oil dispersants: do they do any good? Pp. 539–549 in Proceeding of the Second International Conference on Health, Safety and Environment in Oil and Gas Exploration and Production, Jakarta, Indonesia. Society of Petroleum Engineers, Richardson, Texas.

Muschenheim, D.K. and K. Lee. 2002. Removal of oil from the sea surface through particulate interactions: review and prospectus. Spill Science and Technology Bulletin 8, 9–18.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

National Oceanic and Atmospheric Administration (NOAA). 1994. ADIOS, Automated Data Injury for Oil Spills, User’s Manual. NOAA/Hazardous Materials Response and Assessment Division, Seattle, Washington.

National Oceanic and Atmospheric Administration (NOAA). 1999. Dispersant application observer job aid. NOAA Hazardous Materials Response Division, Seattle, WA.

National Research Council (NRC). 1985. Oil in the Sea: Inputs, Fates, and Effects. National Academy Press, Washington, D.C.

National Research Council (NRC). 1989. Using Oil Spill Dispersants on the Sea. National Academy Press, Washington, D.C.

National Research Council (NRC) 1999. Spills of Nonfloating Oils, Risks and Response. National Academy Press, Washington, D.C.

National Research Council (NRC). 2003. Oil in the Sea III: Inputs, Fates and Effects. National Academies Press, Washington, D.C.

National Response Team Response Committee. 2002. NRT-RRT Fact Sheet. U.S. National Response Team, Washington, D.C. [Online] Available at: http://www.nrt.org/Production/NRT/NRTWeb.nsf/AllAttachmentsByTitle/A-58Riskcomm1/$File/riskcomm1.pdf?OpenElement [January 14, 2005].

Neff, J.M. 2002. Bioaccumulation in Marine Organisms: Effect of Contaminants from Oil Well Produced Water. Elsevier Science Publishers, Amsterdam, The Netherlands.

Neff, J.M. and Burns, W.A. 1996. Estimation of Polycyclic Aromatic Hydrocarbon Concentrations in the Water Column Based on Tissue Residues in Mussels and Salmon: An Equilibrium Partitioning Approach. Journal of Environmental Toxicology and Chemistry 15(12):2240–2253.

Neff, J.M. and W.E. Haensly. 1982. Long-term impact of the Amoco Cadiz crude oil spill on oysters Crassostrea gigas and plaice Pleuronectes platessa from Aber Benoit and Aber Wrac’h, Brittany, France. Pp. 269–327 in Report of the NOAA-CNEXO Joint Scientific Commission, Ecological Study of Amoco Cadiz Oil Spill. U.S. Department of Commerce, National Oceanic and Atmospheric Administration, Boulder, Colorado.

Negri, A.P. and A.J. Heyward. 2000. Inhibition of fertilization and larval metamorphosis of the coral Acropora millepora (Ehrenberg, 1834) by petroleum products. Marine Pollution Bulletin 41:420–427.

New York Department of Health. 2005. Glossary of Environmental Health Terms. New York Department of State, New York, New York. [Online]. Available at: http://www.health.state.ny.us/nysdoh/consumer/environ/toxglos.htm [April 27, 2005].

Newsted, J.L. and J.P. Giesy. 1987. Predictive models for photoinduced acute toxicity of polycyclic aromatic hydrocarbons to Daphnia magna. Journal of Environmental Toxicology and Chemistry 6:445–461.

Nichols, J.A. and H.D. Parker. 1985. Dispersants: Comparison of laboratory tests and field trials with practical experience at spills. Pp. 421–427 in Proceedings of the 1985 International Oil Spill Conference, Los Angeles, California. American Petroleum Institute, Washington, D.C.

Nilsen, J., A. Naess and Z. Volent. 1985. Measurements of oil concentrations in the water column, under breaking waves. Report STF 60 A 85079, Norwegian Hydrotechnical Laboratory. SINTEF Trondheim, Norway.

Nirmalakhandan, N. and R.E. Speece. 1988. Structure-Activity Relationships, Quantitative Techniques for Predicting the Behavior of Chemicals in the Ecosystem. Journal of Environmental Science Technology 22(6):606–615.

Norwegian Institute for Water Research. 1994. Marine algal growth inhibition test. Laboratory Report. Norwegian Institute for Water Research, Oslo, Norway.

Nyman, J.A. 1999. Effect of crude oil and chemical additives on metabolic activity of mixed microbial populations in fresh marsh soils. Microbial Ecology 37:152–162.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Ohwada, K., M. Nishimura, M. Wada, H. Nomura, A. Shibata, K. Okamoto, K. Toyoda, A. Yoshida, H. Takada and M. Yamada. 2003. Study of the effect of water-soluble fractions of heavy-oil on coastal marine organisms using enclosed ecosystems, mesocosms. Marine Pollution Bulletin 47:78–84.

Ojo, T.O. and J.S. Bonner. 2002. Three-Dimensional Self-Calibrating Coastal Oil Spill Trajectory Tracking and Contaminant Transport using HF Radar. Pp. 215–226 in Proceedings of Twenty-Fifth Arctic and Marine Oilspill Technical Seminar, Calgary, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada

Ojo, T.O., J.S. Bonner, C.A. Page, M. Sterling, C. Fuller and F.J. Kelly. 2003. Field simulation experiment of aerial dispersant application for spill of opportunity. Pp. 813–824 in Proceedings of the Twenty-Sixth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Victoria, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Okubo, A. 1971. Oceanic diffusion diagrams. Deep Sea Research 18:789–802.

Omotoso, O.E., V.A. Munoz, R.J. Mikula. 2002. Mechanisms of crude oil–mineral interactions. Spill Science and Technology Bulletin 8(1):45–54.

Onishi, Y., D.S. Trent, T.E. Michener, J.E. Van Beek and C.A. Rieck. 1999. Simulation of Radioactive Tank Waste Mixing with Chemical Reactions, FEDSM99-7786. In Proceedings of Third American Society of Mechanical Engineers/Japan Society of Mechanical Engineers (ASME/JSME) Joint Fluids Engineering Conference, San Francisco, California. American Society of Mechanical Engineers, New York, New York.

Ordsie, C.J. and G.C. Garofalo. 1981. Lethal and sublethal effects of short term acute doses of Kuwait crude oil and a dispersant Corexit 9527 on bay scallops Argopecten irradians and two predators at different temperatures. Marine Environmental Research 5:195–210.

Osborn, T.R. 1974. Vertical profiling of velocity microstructure. Journal of Physical Oceanography 4:109–115.

Owens, E.H. and K. Lee. 2003. Interaction of oil and mineral fines on shorelines: Review and assessment. Spill Science and Technology Bulletin 47(9-12):397–405.


Pace, C.B. and J.R. Clark. 1993. Evaluation of a toxicity test method used for dispersant screening in California. MSRC Technical Report Series 93-028. Marine Spill Response Corporation, Washington, D.C.

Pace, C.B., J.R. Clark and G.E. Bragin. 1995. Comparing crude oil toxicity under standard and environmentally realistic exposures. Pp. 1003–1004 in Proceedings of the 1995 International Oil Spill Conference, Long Beach, California. American Petroleum Institute, Washington, D.C.

Page, C., P. Sumner, R. Autenrieth, J. Bonner and T. McDonald. 1999. Materials balance on a chemically dispersed oil and a whole oil exposed to an experimental beach front. Pp. 645–658 in Proceedings of the Twenty-Second Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Page, C.A., J.S. Bonner, P.L. Sumner, T.J. McDonald, R.L. Autenrieth and C.B. Fuller. 2000a. Behaviour of a chemically-dispersed oil and a whole oil on a near-shore environment. Water Research 34:2507–2516.

Page, C.A., J.S. Bonner, P.L. Sumner and R.L. Autenrieth. 2000b. Solubility of petroleum hydrocarbons in oil/water systems. Marine Chemistry 70:79–87.

Page, C.A., R.L. Autenrieth, J.S. Bonner and T. McDonald. 2001. Behaviour of chemically dispersed oil in a wetland environment. Pp. 821–823 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Page, C.A., J.S. Bonner, T.J. McDonald and R.L. Autenrieth. 2002. Behavior of a chemically dispersed oil in a wetland environment. Water Research 36:3821–3833.

Parker, P.L. and S. Macko. 1978. An intensive study of the heavy hydrocarbons in the suspended particulate matter of seawater. Chapter 11 in Environmental studies, south Texas

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

outer continental shelf, biology and chemistry. BLM Contract AA550-CT7-11. U.S. Department of Interior, Bureau of Land Management (BLM), Washington, D.C.

Parker, C.A., M. Freegarde and C.G. Hatchard. 1971. The effect of some chemical and biological factors on the degradation of crude oil at sea. Pp. 237–244 in Water Pollution by Oil, P. Hepple, Ed. Institute of Petroleum, London, United Kingdom.

Payne, J.R. and A.A. Allen. 2004. Use of natural oil seeps for evaluation of dispersant application and monitoring techniques. Final report for Cooperative Institute for Coastal and Estuarine Environmental Technology /University of New Hampshire (UNH) Subcontract number 03-690. National Oceanic and Atmospheric Administration/UNH Cooperative Institute for Coastal and Estuarine Environmental Technology, Durham, New Hampshire. [Online] Available at: www.crrc.unh.edu. [April 22, 2005].

Payne, J.R. and A.A. Allen. In press. Use of natural oil seeps for evaluation of dispersant application and monitoring techniques. Proceedings of the 2005 International Oil Spill Conference, Miami Beach, Florida. American Petroleum Institute, Washington, D.C.

Payne, J.R. and W.B. Driskell. 2001. Source characterization and identification of New Carissa oil in NRDA environmental samples using a combined statistical and fingerprinting approach. Pp. 1403–1409 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Payne, J.R. and W.B. Driskell. 2003. The importance of distinguishing dissolved- versus oil-droplet phases in assessing the fate, transport, and toxic effects of marine oil pollution. Pp. 771–778 in Proceedings of the 2003 International Oil Spill Conference, Vancouver, Canada. American Petroleum Institute. Washington, D.C.

Payne, J.R. and French-McCay, D. 2001. Development of a conceptual model for predicting pollutant movement from an oil spill with and without dispersant treatment: background information/literature review and oil spill modeling conceptualization. Draft prepared for Environmental Protection Agency, Office of Research and Development, National Exposure Research Laboratory, Ecosystems Research Division. Environmental Protection Agency, Athens, Georgia.

Payne, J.R. and McNabb, G.D., Jr. 1984. Weathering of petroleum in the marine environment. Marine Technology Society Journal 18(3):24–40.

Payne, J.R. and C.R. Phillips. 1985a. Photochemistry of petroleum in water. Environmental Science and Technology 19(7):569–579.

Payne, J.R. and C.R. Phillips. 1985b. Petroleum Spills in the Marine Environment: The Chemistry and Formation of Water-in-Oil Emulsions and Tar Balls. Lewis Publishers, Incorporated, Chelsea, Michigan.

Payne, J.R., N.W. Flynn, P.J. Mankiewicz and G.S. Smith. 1980a. Surface evaporation/dissolution partitioning of lower-molecular-weight aromatic hydrocarbons in a down-plume transect from the IXTOC I wellhead. Pp. 119–166 in Proceedings of the Symposium on Preliminary Results from the September 1979 Researcher/Pierce IXTOC-I Cruise, Key Biscayne, Florida. National Oceanic and Atmospheric Administration Publications Office, Boulder, Colorado.

Payne, J.R., G.S. Smith, P.J. Mankiewicz, R.F. Shokes, N.W. Flynn, W. Moreno and J. Altamirano. 1980b. Horizontal and vertical transport of dissolved and particulate-bound higher-molecular-weight hydrocarbons from the IXTOC I blowout. Pp. 239–263 in Proceedings of the Symposium on Preliminary Results from the September 1979 Researcher/Pierce IXTOC-I Cruise, Key Biscayne, Florida. National Oceanic and Atmospheric Administration Publications Office, Boulder, Colorado.

Payne, J.R., B.E. Kirstein, G.D. McNabb Jr., J.L. Lambach, C. de Oliveira, R.E. Jordan and W. Hom. 1983. Multivariate analysis of petroleum hydrocarbon weathering in the subarctic marine environment. Pp. 423–434 in Proceedings of the 1983 International Oil Spill Conference, San Antonio, Texas. American Petroleum Institute, Washington, D.C.,

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Payne, J.R., B.E. Kirstein, G.D. McNabb, Jr., J.L. Lambach, R. Redding, R.E. Jordan, W. Hom, C. de Oliveira, G.S. Smith, D.M. Baxter and R. Geagel. 1984. Multivariate analysis of petroleum weathering in the marine environment—subarctic. Volume I, Technical Results; Volume II, Appendices in Outer Continental Shelf Environmental Assessment Program, Final Reports of Principal Investigators, Volume 21 and 22. Volume 21 NTIS Accession Number PB85-215796; Volume 22 NTIS Accession Number PB85-215739. Report to the U.S. Department of Commerce. National Oceanic and Atmospheric Administration, Ocean Assessment Division, Juneau, Alaska.

Payne, J.R., B.E. Kirstein, J.R. Clayton, Jr., C. Clary, R. Redding, Jr., G.D. McNabb and G.H. Farmer. 1987a. Integration of suspended particulate matter and oil transportation study. Final Report submitted to Minerals Management Service. Minerals Management Service, Environmental Studies Branch, Anchorage, Alaska.

Payne, J.R., C.R. Phillips and W. Hom. 1987b. Transport and Transformations: Water Column Processes. Pp. 175–232 in Long Term Environmental Effects of Offshore Oil and Gas Development, D.F. Boesch and N.N. Rabelais, Eds. Elsevier Applied Science, New York, New York.

Payne, J.R., G.D. McNabb, Jr., L.E. Hachmeister, B.E. Kirstein, J.R. Clayton, Jr., C.R. Phillips, R.T. Redding, C.L. Clary, G.S. Smith and G.H. Farmer. 1987c. Development of a Predictive Model for the Weathering of Oil in the Presence of Sea Ice. Pp. 147–465 in Outer Continental Shelf Environmental Assessment Program, Final Reports of Principal Investigators. NTIS Accession Number PB-89-159776. Report to the U.S. Department of Commerce. National Oceanic and Atmospheric Administration, Ocean Assessment Division, Juneau, Alaska.

Payne, J.R., J.R. Clayton, Jr., G.D. McNabb, Jr., B.E. Kirstein, C.L. Clary, R.T. Redding, J.S. Evans, E. Reimnitz and E.W. Kempema. 1989. Oil-Ice-Sediment Interactions During Freezeup and Breakup. Pp. 1–382 in Outer Continental Shelf Environmental Assessment Program, Final Reports of Principal Investigators. NTIS Accession Number PB-90-156217. Report to the U.S. Department of Commerce. National Oceanic and Atmospheric Administration, Ocean Assessment Division, Juneau, Alaska.

Payne, J.R., J.R. Clayton, Jr., G.D. McNabb, Jr. and B.E. Kirstein. 1991a. Exxon Valdez oil weathering fate and behavior: Model predictions and field observations. Pp. 641–654 in Proceedings of the 1991 International Oil Spill Conference, San Diego, California. American Petroleum Institute, Washington, D.C.

Payne, J.R., G.D. McNabb, Jr. and J.R. Clayton, Jr. 1991b. Oil-weathering behavior in arctic environments. Polar Research 10(2):631–662.

Payne, J.R., J.R. Clayton, Jr., C.R. Phillips, J. Robinson, D. Kennedy, J. Talbot, G. Petrae, J. Michel, T. Ballou and S. Onstad. 1991c. Dispersant trials using the Pac Baroness, a spill of opportunity. Pp. 427–433 in Proceedings of the 1991 International Oil Spill Conference, San Diego, California. American Petroleum Institute, Washington, D.C.

Payne, J.R., L.E. Hachmeister, G.D. McNabb, Jr., H.E. Sharpe, G.S. Smith and C.A. Manen. 1991d. Brine-induced advection of dissolved aromatic hydrocarbons to arctic bottom waters. Environmental Science and Technology 25(5):940–951.

Payne, J.R., T.J. Reilly, R.J. Martrano, G.P. Lindblom, M.C. Kennicutt II and J.M. Brooks. 1993. Spill-of-opportunity testing of dispersant effectiveness at the Mega Borg oil spill. Pp. 791–793 in Proceedings of the 1993 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Payne, J.R., T.J. Reilly and D.P. French-McCay. 1999. Fabrication of a portable large-volume water sampling system to support oil spill NRDA efforts. Pp. 1179–1184 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Payne, J.R., J.R. Clayton, Jr. and B.E. Kirstein. 2003. Oil/suspended particulate material interactions and sedimentation. Spill Science & Technology 8(2):201–221.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Peakall, D.B., P.G. Wells and D. Mackay. 1987. A hazard assessment of chemically dispersed oil spills and seabirds. Marine Environmental Research 22:91–106.

Pelletier, M.C., R.M. Burgess, K.T. Ho, A. Kuhn, R.A. McKinney and S.A. Ryba. 1997. Phototoxicity of individual polycyclic aromatic hydrocarbons and petroleum to marine invertebrate larvae and juveniles. Journal of Environmental Toxicology and Chemistry 16:2190–2199.

Peters, E.C., P.A. Meyers, P.P. Yevich and N.J. Blake. 1981. Bioaccumulation and histopathological effects of oil on a stony coral. Marine Pollution Bulletin 12(10):333–339.

Peters, E.C., N.J. Gassman, J.C. Firman, R.H. Richmond and E.A. Power. 1997. Ecotoxicology of tropical marine ecosystems. Environmental Toxicology and Chemistry 16(1):12–40.

Pezeshki, S.R., M.W. Hester, Q. Lin and J.A. Nyman. 2000. The effects of oil spill and cleanup on dominant US Gulf coast marsh macrophytes: a review. Environmental Pollution 108(2):129–139.

Pittinger, C.A., R. Bachman, A.L. Barton, J.R. Clark, P.L. deFur, S.J. Ellis, M.W. Slimak, R.G. Stahl and R.S. Wentzel. 1998. A multi-stakeholder framework for ecological risk assessment—Summary of a SETAC technical workshop. Pp. 23–25 in Summary of SETAC Workshop on Framework for Ecological Risk Management, Williamsburg, Virginia. Society of Environmental Toxiciology and Chemistry, Pensacola, Florida.

Pollino, C.A. and D.A. Holdaway. 2002a. Reproductive potential of crimson-spotted rainbowfish (Melanotaenia fluviatilis) following short-term exposure to bass strait crude oil and dispersed crude oil. Environmental Toxicology 17:138–145.

Pollino, C.A. and D.A. Holdaway. 2002b. Toxicity testing of crude oil and related compounds using early life stages of the crimson-spotted rainbowfish (Melanotaenia fluviatilis). Ecotoxicology and Environmental Safety 52:180–189.

Pollino, C.A. and D.A. Holdaway. 2003. Hydrocarbon-induced changes to metabolic and detoxification enzymes of the Australian Crimson-Spotted rainbowfish (Melanotaenia fluviatilis). Environmental Toxicology 18:21–28.

Pond, R., J.H. Kucklick and A.H. Walker. 1997. Dispersant use: Real-time operational monitoring and long-term data gathering. Prepared by Scientific and Environmental Associates, Incorporated for the Marine Preservation Association. Marine Preservation Association, Scottsdale, Arizona.

Pond, R.G., D.V. Aurand and J.A. Kraly (compilers). 2000. Ecological Risk Assessment Principles Applied to Oil Spill Response Planning in the Galveston Bay Area. Texas General Land Office, Austin, Texas.

Poremba, K. 1993. Influence of synthetic and biogenic surfactants on the toxicity of watersoluble fractions of hydrocarbons in sea water determined with the bioluminescence inhibition test. Environmental Pollution 80:25–29.

Poremba, K. and W. Gunkel. 1990. Marine Biosurfactants, III. Toxicity Testing with Marine Microorganisms and Comparison with Synthetic Surfactants. Verlag der Zeitschrift fur Naturforschung 46c:210–216.

Porter, M.R. 1991. Handbook of Surfactants. Blackie and Sons, Ltd., Glasgow, Scotland.

Prince William Sound Regional Citizens’ Advisory Council (PWSRCAC). 2004. Heated oil and under-reported dispersant volumes MAR MMS/Exxon cold water dispersant tests at OHMSETT. Report prepared by the PWSRCAC. Prince William Sound Regional Citizens’ Advisory Council, Anchorage, Alaska.

Proctor, R., A. Elliot and R. Flather. 1994. Forecast and hindcast simulations of the Braer oilspill. Marine Pollution Bulletin 28(4):219–229.

Proctor, R., R. Flather, A. Roger and A.J. Elliott. 1994. Modeling tides and surface drift in the Arabian Gulf—application to the Gulf oil spill. Continental Shelf Research 14(5):531–545.


Ramachandran, S.D., P.V. Hodson, C.W. Khan and K. Lee. 2003. PAH uptake by juvenile rainbow trout exposed to dispersed crude oil. Pp. 743–754 in Proceedings of the Twenty-

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Sixth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Victoria, British Columbia, Canada. Environment Canada, Ottawa, Ontario, Canada.

Ramachandran, S.D., C.W. Khan, P.V. Hodson, K. Lee and T. King. 2004. Role of droplets in promoting uptake of PAHs by fish exposed to chemically dispersed crude oil. Pp. 765–772 in Proceedings of the Twenty-Seventh Arctic Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Rand, G.M., Ed. 1995. Fundamentals of aquatic toxicology: Effects, environmental fate, and risk assessment. CRC Press, Incorporated, Boca Raton, Florida.

Reddy, P.G., H.D. Singh, M.G. Pathak, S.D. Bhagat and J.N. Baruah. 1983. Isolation and functional characterization of hydrocarbon emulsifying and solubilizing factors produced by a Pseudomonas species. Biotechnology and Bioengineering 25:387–401.

Reed, M., D. French-McCay, S. Feng and W. Knauss. 1991. A Three-Dimensional Natural Resource Damage Assessment and Coupled Geographical Information System. Pp. 631–637 in Proceedings of 1991 National Conference of the American Society of Civil Engineers (ASCE) Hydraulic Engineering, Nashville, Tennessee. American Society of Civil Engineers, Reston, Virginia.

Reed, M., O. Johansen, P.J. Brandvik, P. Daling, A. Lewis, R. Fiocco, D. Mackay and R. Prentki. 1999. Review: Oil Spill Modeling Toward the Close of the 20th Century: Overview of the State of the Art. Spill Sciences and Technology Bulletin 5(1):3–16.

Reed, M., P.S. Daling, A. Lewis, M.K. Ditlevsen, B. Brørs, J. Clark and D. Aurand. 2004. Modeling of Dispersant Application to Oil Spills in Shallow Coastal Waters. Environmental Modeling and Software 19(7-8):681–690.

Rewick, R.T., K.A. Sabo, J. Gates, J.H. Smith and L.T. McCarthy. 1981. An evaluation of oil spill dispersant testing requirements. Pp. 5–10 in Proceedings of the 1981 International Oil Spill Conference, Atlanta, Georgia. American Petroleum Institute, Washington, D.C.

Rhoton, S.L., R.A. Perkins, J.F. Braddock and C. Behr-Andres. 2001. A cold-weather species’ response to chemically dispersed fresh and weathered Alaska North Slope crude oil. Pp. 1231–1236 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Ritchie, W. and M. O’Sullivan. 1994. The environmental impact of the wreck of the Braer. The Scottish Office, Edinburgh, Scotland.

Rogers, R.D., J.C. McFarlane and A.J. Cross. 1980. Adsorption and desorption of benzene in two soils and montmorillonite clay. Environmental Science and Technology 14:457–461.

Rosenberg, M. and E. Rosenberg. 1981. Role of adherence in growth of Acinetobacter calcoaceticus RAG-1 on hexadecane. Journal of Bacteriology 148(1):51–57.

Ross, S. and R. Belore. 1993. Effectiveness of dispersants on thick oil slicks. Pp. 1011–1022 in Proceedings of the Sixteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Ross, S. and I. Buist. 1995. Preliminary laboratory study to determine the effect of emulsification on oil spill evaporation. Pp. 91–312 in Proceedings of the Eighteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Ruxton, G.D. and N. Colegrave. 2003. Experimental Design for the Life Sciences. Oxford University Press, Incorporated, New York, New York.


Schippers, C., K. Gebner, T. Muller and T. Scheper. 2000. Microbial degradation of phenanthrene by addition of a sophorolipid mixture. Journal of Biotechnology 83:189–198.

Schlautman, M.A. and J.J. Morgan. 1993. Effects of aqueous chemistry on the binding of polycyclic aromatic hydrocarbons by dissolved humic materials. Environmental Science and Technology 27(5):961–969.

Schroh, K. 1995. Advanced aerial surveillance system for detection of marine pollution and international aerial surveillance cooperation in the North and Baltic Seas. Pp. 21–26 in

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Proceedings of the 1995 International Oil Spill Conference, Long Beach, California. American Petroleum Institute, Washington, D.C.

Schwarzenbach, R.P., P.M. Gschwend and D.M. Imaboden. 1993. Pp. 436–484 in Environmental Organic Chemistry. Wiley Interscience, New York, New York.

Sea Empress Environmental Evaluation Committee (SEEEC). 1996. Sea Empress Environmental Evaluation Committee (SEEEC) Initial Report. SEEEC Secretariat, Cardiff, Wales, United Kingdom.

Shafir, S., J.V. Rijnb and B. Rinkevicha. 2003. The use of coral nubbins in coral reef ecotoxicology testing. Biomolecular Engineering 20(4-6):401–406.

Shigenaka, G. 2001. Toxicity of Oil to Reef-Building Corals: A Spill Response Perspective. NOAA Technical Memorandum NOA OR&R 8. National Oceanic and Atmospheric Administration, Hazardous Materials Response Division, Seattle, Washington.

Short, J.W. and P.M. Harris. 1996. Chemical sampling and analysis of petroleum hydrocarbons in near-surface seawater of Prince William Sound after the Exxon Valdez oil spill. American Fisheries Society Symposium 18:17–28.

Sigman, M.E., P.F. Schuler, M.M. Gosh and R.T. Dabestani. 1998. Mechanism of Pyrene Photochemical Oxidation in Aqueous and Surfactant Solutions. Environmental Science and Technology 32:3980–3985.

Simecek-Beatty, D., C. O’Conner and W.J. Lehr. 2002. 3-D Modeling of Chemically Dispersed Oil. Pp. 1149–1159 in Proceedings of Twenty-Fifth Arctic and Marine Oilspill Technical Seminar, Calgary, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Singer, M.E. and W.R. Finnerty. 1984. Microbial metabolism of straight-chain and branched alkanes. Pp. 1–59 in Petroleum Microbiology, R.M. Atlas, Ed. Macmillan Publishing Company, New York, New York.

Singer, M.M., D.L. Smalheer, R.S. Tjeerdema and M. Martin. 1990. Toxicity of an oil dispersant to the early life stages of four California marine species. Journal of Environmental Toxicology and Chemistry 9:1389–1397.

Singer, M., D.L. Smalheer, R.S. Tjeerdema and M. Martin. 1991. Effects of spiked exposure to an oil dispersant on the early life stages of four marine species. Journal of Environmental Toxicology and Chemistry 10:1367–1374.

Singer, M.M., S. George, D. Benner, S. Jacobson, R.S. Tjeerdema and M.L. Sowby. 1993. Comparative toxicity of 2 oil dispersants to the early-life stages of 2 marine species. Journal of Environmental Toxicology and Chemistry 12(10):1855–1863.

Singer, M.M., S. George, S. Jacobson, I. Lee, R.S. Tjeerdema and M.L. Sowby. 1994a. Comparative effects of oil dispersants to the early-life stages of topsmelt (Atherinops-affinis) and kelp (Macrocystis-pyrifera). Journal of Environmental Toxicology and Chemistry 13(4): 649–655.

Singer, M.M., S. George, S. Jacobson, I. Lee, R.S. Tjeerdema and M.L. Sowby. 1994b. Comparative toxicity of Corexit(R)-7664 to the early-life stages of 4 marine species. Archives of Environmental Contamination and Toxicology 27(1):130–136.

Singer, M.M., S. George and R.S. Tjeerdema. 1995. Relationship of some physical-properties of oil dispersants and their toxicity to marine organisms. Archives of Environmental Contamination and Toxicology 29(1):33–38.

Singer, M.M., S. George, S. Jacobson, I. Lee, L.L. Weetman, R.S. Tjeerdema and M.L. Sowby. 1996. Comparison of acute aquatic effects of the oil dispersant Corexit 9500 with those of other Corexit series dispersants. Ecotoxicology and Environmental Safety 35(2):183–189.

Singer, M.M., S.George, I. Lee, S. Jacobson, L.L. Weetman, G. Blondina, R.S. Tjerdeema, D. Aurand and M.L. Sowby. 1998. Effects of dispersant treatment on the acute toxicity of petroleum hydrocarbons. Archives of Environmental Contamination and Toxicology 34(2): 177–87.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Singer, M.M., D. Aurand, G.E. Bragins, J.R. Clark, G.M. Coelho, M.L. Sowby and R.S. Tjeerdema. 2000. Standardization of the preparation and quantitation of water-accommodated fractions of petroleum for toxicity testing. Marine Pollution Bulletin 40(11):1007–1016.

Singer, M.M., D. Aurand, G. Coelho, G.E. Bragin, J.R. Clark, S. Jacobson, M.L. Sowby and R.S. Tjeerdema. 2001a. Making, measuring, and using water-accommodated fractions of petroleum for toxicity testing. Pp. 1269–1274 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Singer, M.M., S. Jacobson, R.S. Tjeerdema and M.L. Sowby. 2001b. Acute effects of fresh versus weathered oil to marine organisms: California findings. Pp. 1263–1268 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Sjoblom, J., N. Aske, I.H. Auflem, O. Brandal, T.E. Harve, O. Saether, A. Westvik, E.E. Johnsen and H. Kallevik. 2003. Our current understanding of water-in-crude oil emulsions. Recent characterization techniques and high pressure performance. Advances in Colloid and Interface Science 100-102:399–473.

Slade, G.J. 1982. Effect of Ixtoc I crude oil and Corexit® 9527 on spot (Leiostomus xanthurus) egg mortality. Bulletin of Environmental Contamination and Toxicology 29:525–530.

S.L. Ross. 1997. A review of dispersant use on spills of North Slope crude oil in Prince William Sound and the Gulf of Alaska. Report No. C\634.96.1. Report by S.L. Ross Environmental Research Ltd. for Prince William Sound Regional Citizens’ Advisory Council, Anchorage, Alaska.

S.L. Ross. 2000. Feasibility of using OHMSETT for dispersant testing. Report to the MAR, Incorporated. MAR, Incorporated, Atlantic Highlands, New Jersey.

S.L. Ross. 2002. Dispersant Effectiveness Testing in Cold Water. Report by S.L. Ross Environmental Research Ltd. for the Minerals Management Service and ExxonMobil Research and Engineering Company. S.L. Ross, Ottawa, Ontario Canada.

S.L. Ross and MAR Incorporated. 2003. Dispersant Effectiveness Testing on Alaskan Oils in Cold Water. Report by S.L. Ross Environmental Research Ltd. and MAR Incorporated for the Minerals Management Service. S.L. Ross, Ottawa, Ontario, Canada; MAR Incorporated, Leonardo, New Jersey.

Smith, C.J., R.D. Delaune, W.H. Patrick, Jr. and J.W. Fleeger. 1984. Impact of dispersed and undispersed oil entering a Gulf Coast salt marsh. Journal of Environmental Toxicology and Chemistry 3(4):609–616.

Smith, J.E. 1968. Torrey Canyon Pollution and Marine Life. Cambridge University Press, New York, New York.

Society of Environmental Toxicology and Chemistry (SETAC). 2003. Population-Level Ecological Risk Assessment. Workshop held in Roskilde, Denmark, 23–27 August 2003. SETAC, Pensacola, Florida.

Socolofsky, S.A. and E.E. Adams. 2002. Multi-phase plumes in uniform and stratified crossflow. Journal of Hydraulic Research, 40(6):661–672.

Sorial, G.A., K.M. Koran, E. Holder, A.D. Venosa and D.W. King. 2001. Development of a rational oil spill dispersant effectiveness protocol. Pp. 471–478 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Sorial, G.A., A.D. Venosa, K.M. Koran, E. Holder and D.W. King. 2004a. Oil spill dispersant effectiveness protocol. I: Impact of operational variables. Journal of Environmental Engineering 130:1073–1084.

Sorial, G.A., A.D. Venosa, K.M. Koran, E. Holder and D.W. King. 2004b. Oil spill dispersant effectiveness protocol. II: Performance of revised protocol. Journal of Environmental Engineering 130:1085–1093.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Spaulding, M. 1988. A state-of-the-art review of oil spill trajectory and fate modeling. Oil and Chemical Pollution 4:39–55.

Spaulding, M.L., E. Howlett, E.L. Anderson and K. Jayko. 1992. OILMAP: A Global Approach to Spill Modeling. Pp. 15–21 in Proceedings of the Fifteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Spaulding, M., V. Kolluru, E. Anderson and E. Howlett. 1994. Application of a 3-dimensional oil spill model to hindcast the Braer spill. Spill Science and Technology Bulletin 1(1):23–35.

Speight, J.G. 1991. The Chemistry and Technology of Petroleum. Marcel Dekker, Incorporated, New York, New York.

Stephens, F.L., J.S. Bonner, R.L. Autenrieth and T.J. McDonald. 1999. TLC/FID analysis of compositional hydrocarbon changes associated with bioremediation. Pp. 219–224 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Stephenson, R. 1997. Effects of oil and other surface-active organic pollutants on aquatic birds. Environmental Conservation 24:121–129.

Stephenson, R. and C.A. Andrews. 1997. The effect of water surface tension on feather wettability in aquatic birds. Canadian Journal of Zoology 74:288–294.

Sterling, M.C., J.S. Bonner, C.A. Page, C.B. Fuller, A.N.S. Ernest and R.L Autenrieth. 2003. Partitioning of crude oil polycyclic aromatic hydrocarbons in aquatic systems. Environmental Science and Technology 37:4429–4434.

Sterling, M.C., Jr., J.S. Bonner, A.N.S. Ernest, C.A. Page and R.L. Autenrieth. 2004a. Characterizing aquatic sediment-oil aggregates using in-situ instruments. Marine Pollution Bulletin 48:533–542.

Sterling, M.C., Jr., J.S. Bonner, C.A. Page, C.B. Fuller, A.N.S. Ernest and R.L. Autenrieth. 2004b. Modeling crude oil droplet-sediment aggregation in nearshore waters. Environmental Science and Technology 38:4627–4634.

Sterling, M.C., J.S. Bonner, A.N.S. Ernest, C.A. Page and R.L. Autenrieth. 2004c. Chemical dispersant effectiveness testing: influence of droplet coalescence. Marine Pollution Bulletin 48:969–977.

Stevens, L. and J. Roberts. 2003. Dispersant effectiveness on heavy fuel oil and crude oil in New Zealand. Pp. 1–5 in Proceedings of the 2003 International Oil Spill Conference, Vancouver, Canada. American Petroleum Institute. Washington, D.C.

Stiver, W. and D. Mackay. 1984. Evaporation rate of oil spills of hydrocarbons and petroleum mixtures. Environmental Science and Technology 18:834–840.

Stoermer, S., G. Butler, C. Henry. 2001. Application of Dispersants to Mitigate Oil Spills in the Gulf of Mexico: The Poseidon Pipeline Spill Case Study. Pp. 1227–1299 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Stoffyn-Egli, P. and K. Lee. 2002. Observation and characterization of oil–mineral aggregates. Spill Science and Technology 8(1):31–44.

Stolzenbach, K.D., O.S. Madsen, E.E. Adams, A.M. Pollack and C.K. Cooper. 1977. A Review and Evaluation of Basic Techniques Predicting the Behavior of Surface Oil Slicks. Report No. 222 of the Ralph M. Parsons Laboratory for Water Resources and Hydrodynamics. Massachusetts Institute of Technology, Cambridge, Massachusetts.

Strom-Kristiansen, T., P.S. Daling, A. Lewis and A.B. Nordvik. 1994. Weathering properties and chemical dispersibility of crude oils transported in U.S. waters. Technical Report Series 93-032. Marine Spill Response Corporation, Washington, D.C.

Strom-Kristiansen, T., P.S. Daling, P.J. Brandvik and H. Jensen. 1995. Mechanical recovery of chemically-treated oil slicks. Pp. 407–421 in Proceedings of the Nineteenth Arctic and Ma-

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

rine Oilspill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Subba-Rao and M. Alexander. 1982. Effects of sorption on mineralization of low concentrations of aromatic hydrocarbons in lake water. Applied Environmental Microbiology 44:659–668.

Suter, G.W., II. 1993. Ecological Risk Assessment. Lewis Publishers, Boca Raton, Florida.

Sutton, C. and J.A. Calder. 1974. Solubility of higher-molecular-weight n-paraffins in distilled water and seawater. Environmental Science and Technology 8:654–657.

Sutton, C. and J.A. Calder. 1975a. Reply to correspondence to the editor. Environmental Science and Technology 9:354–6.

Sutton, C. and J.A. Calder. 1975b. Solubility of alkylbenzenes in distilled water and seawater at 25.0° C. Journal of Chemical and Engineering Data 20(3):320–322.

Swannell, R.P.J. and F. Daniel. 1999. Effect of dispersants on oil biodegradation under simulated marine conditions. Pp. 166–176 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Swannell, R.J.P., F. Daniel, B.C. Croft, M.A. Englehardt, S. Wilson, D.J. Mitchell and T. Lunel. 1997. Influence of physical and chemical dispersion on the biodegradation of oil under simulated marine conditions. Pp. 617–641 in Proceedings of the Twentieth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Vancouver, British Columbia. Environment Canada, Ottawa, Ontario, Canada.

Swartz, R.C., D.W. Schults, R.O. Ozretich, J.O. Lamberson, F.A. Cole, T.H. DeWitt, M.S. Redmond and S.P. Ferraro. 1995. S PAH: A model to predict the toxicity of polynuclear aromatic hydrocarbon mixtures in field collected sediments. Journal of Environmental Toxicology and Chemistry 14:1977–1987.


Tang, L. 2004. Cylindrical liquid-liquid jet instability. Ph.D. Dissertation, University of Hawaii, Manoa.

Tasaki, R. and A. Ogawa. 1999. Emulsification of crude oil: A new equation and governing parameters. Pp. 1011–1014 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Tennekes, H. and J.L. Lumley. 1972. A First Course in Turbulence. Massachusetts Institute of Technology Press, Cambridge, Massachusetts.

Terray, E.A., M.A. Donelan, Y.C. Agrawal, W.M. Drennan, K.K. Kahma, A.J. Williams, III, P.A. Hwang and S.A. Kitaigorodskii. 1996. Estimates of kinetic energy dissipation under breaking waves. Journal of Physical Oceanography 26:792–807.

Thomas, D. and T. Lunel. 1993. The Braer incident: Dispersion in action. Pp. 843-859 in Proceedings of the Sixteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Thorhaug, A., K. Aiken, M. Anderson, B. Carby, V. Gordon, F. McDonald, J. McFarlane, B. Miller, R. Reese, M. Rodriquez, G. Sidrak, H. Teas and W. Walker. 1989. Dispersant Use for Tropical Nearshore Waters: Jamaica. Pp. 415-418 in Proceedings of the 1989 International Oil Spill Conference, San Antonio, Texas. American Petroleum Institute, Washington, D.C.

Transtronics. 2000. Viscosity. Transtronics, Lawrence, Kansas. [Online] Available at: http://xtronics.com/reference/viscosity.htm [January 18, 2005].

Traxler, R.W. and L.S. Bhattacharya. 1978. Effect of a chemical dispersant on microbial utilization of petroleum hydrocarbons. Pp. 181–187 in Chemical Dispersants for the Control of Oil Spills, L.T. McCarthy, G.P. Lindblom and H.F. Walter, Eds. American Society for Testing and Materials. Philadelphia, Pennsylvania.

Trudel, B.K, Ed. 1998. Dispersant Use in Alaska: A Technical Update, Conference Proceedings. Prince William Sound Oil Spill Recovery Institute, Cordova, Alaska.

Trudel, K. 2002. Lecture Notes, Oil Spill Dispersant Course for Supervisors. S.L. Ross Environmental Research, Ottawa, Ontario, Canada, Unpublished.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Tsahalis, D.T. 1979. Contingency Planning for Oil Spills: RiverSpill—A River Simulation Model. Pp. 27–36 in Proceedings of the 1979 International Oil Spill Conference, Los Angeles, California. American Petroleum Institute, Washington, D.C.

Twardus, E.M. 1980. A Study to Evaluate the Combustibility and Other Physical and Chemical Properties of Aged Oils and Emulsions. Report of Environment Canada, Research and Development Division, Environmental Emergency Branch, Environmental Impact Control Directorate, Environmental Protection Service, Ottawa, Ontario, Canada.


Underwood, A.J. 1994. On beyond BACI: Sampling designs that might reliably detect environmental disturbances. Ecological Applications 4(1):3–15.

Unsal, M. 1991. Comparative toxicity of crude-oil, dispersant and oil-dispersant mixture to prawn Palaemon-elegans. Toxicology and Environmental Chemistry 31-2:451–459.

U.S. Coast Guard, National Oceanic and Atmospheric Administration, Environmental Protection Agency, Centers for Disease Control and Prevention and Minerals Management Service. 2001. Special monitoring of applied response technologies (SMART). U.S. Coast Guard, Washington, D.C. [Online] Available at: http://response.restoration.noaa.gov/oilaids/SMART/SMART.html [March 17, 2005].


Valiela I. 1984. Marine Ecological Processes. Springer-Verlag, New York, Inc.

Van Hamme, J.D. and O.P. Ward. 1999. Influence of chemical surfactants on the biodegradation of crude oil by a mixed bacterial culture. Canadian Journal of Microbiology 45:130–137.

Van Hamme, J.D. and O.P. Ward. 2001. Physical and metabolic interactions of Pseudomonas sp strain JA5-B45 and Rhodococcus sp strain F9-D79 during growth on crude oil and effect of a chemical surfactant on them. Applied and Environmental Microbiology 67(10): 4874–4879.

van Loosdrecht, M.C.M., J. Lyklema, W. Norde and A.J.B. Zehnder. 1990. Influence of interfaces on microbial activity. Microbiolological Reviews 54:75–87.

van Wezel, A., D. de Vries, D. Sijm and A. Opperhuizen. 1996. Use of the lethal body burden in the evaluation of mixture toxicity. Ecotoxicology and Environmental Safety 35:236–241.

Vandermeulen, J.H. 1980. Chemical dispersion of oil in coastal low-energy systems: saltmarshes and Tidal Rivers. Pp. 27–29 in Chemical Dispersion of Oil Spills: An International Research Symposium, D. Mackay, P.G. Wells and S. Paterson, Eds. Publication number EE-17. University of Toronto, Toronto, Ontario, Canada.

Varadaraj, R., M.L. Robbins, J. Bock, S. Pace and D. MacDonald. 1995. Dispersion and biodegradation of oil spills on water. Pp. 101–106 in Proceedings of the 1995 International Oil Spill Conference, Long Beach, California. American Petroleum Institute, Washington, D.C.

Varhaar, H.J.M, C.J. VanLeeuwen and J.L.M. Hermens. 1992. Classifying Environmental Pollutants, 1: Structure-activity Relationships for Prediction of Aquatic Toxicity. Chemosphere 25:471–491.

Venosa, A.D., G.A. Sorial, T.L. Richardson, F. Uraizee and M.T. Suidan. 1999. Research leading to revisions in EPA’s dispersant effectiveness protocol. Pp. 1019–1022 in Proceedings of the 1999 International Oil Spill Conference, Seattle, Washington. American Petroleum Institute, Washington, D.C.

Venosa, A.D., G.A. Sorial and D.W. King. 2001. Round-robin testing of a new EPA dispersant effectiveness protocol. Pp. 467–470 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Venosa, A.D., D.W. King and G.A. Sorial. 2002. The baffled flask test for dispersant effectiveness: a round robin evaluation of reproducibility and repeatability. Spill Science and Technology Bulletin 7(5-6):299–308.

Veron, F. and W.K. Melville. 2001. Pulse-to-pulse coherent Doppler measurements of waves and turbulence. Journal of Atmospheric and Oceanic Technology 16(11):1580–1597.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Volkman, J.K., G.J. Miller, A.T. Revill and D.W. Connell. 1994. Oil spills, Part 6. Pp. 509–695 in Environmental Implications of Offshore Oil and Gas Development in Australia—The Findings of an Independent Scientific Review, J.M. Swan, J.M. Neff and P.C. Young, Eds. Australian Petroleum Exploration Association (APEA) and Energy Research and Development Corporation (ERDC), Sydney, Australia.


Wade, T.L. and J.G. Quinn. 1980. Incorporation, distribution and fate of saturated petroleum hydrocarbons in sediments from a controlled marine ecosystem. Marine Environmental Research 3:15–33.

Walker, A.H. and D.R. Henne. 1991. The Region III Regional Response Team technical symposium on dispersants: An interactive, educational approach to enlightened decision making. Pp. 405–410 in Proceedings of the 1991 International Oil Spill Conference, San Diego, California. American Petroleum Institute, Washington, D.C.

Walker, M.I. and T. Lunel. 1995. Response to oil spills at sea using both demulsifiers and dispersants. Pp. 537–558 in Proceedings of the Eighteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Walker, A.H., D.L. Ducey, Jr., J.R. Gould and A.B. Nordvik, Eds. 1993a. Formation and Breaking of Water-in-Oil Emulsions: Workshop Proceedings. Marine Spill Response Corporation, Washington, D.C.

Walker, M., M. McDonaugh, D. Albone, S. Grigson, A. Wilkinson and G. Baron. 1993b. Comparison of observed and predicted changes to oil after spills. Pp. 389–393 in Proceedings of the 1993 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Walker, A.H., T. Lunel, P.J. Brandvik and A. Lewis. 1995. Emulsification processes at sea—Forties crude oil. Pp. 471–491 in Proceedings of the Eighteenth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.

Ward, G.A., B. Baca, W. Cyriacks, R.E. Dodge, A. Knap. 2003. Continuing long-term studies of the TROPICS Panama oil and dispersed oil spill sites. Pp.1–9 in Proceedings of the 2003 International Oil Spill Conference, Vancouver, Canada. American Petroleum Institute. Washington, D.C.

Wardrup, J.A. 1987. The effects of oils and dispersants on mangroves: a review and bibliography. Occasional paper no. 2. University of Adelaide, Environmental Studies, Adelaide, Australia.

Watkinson, R.J. and P. Morgan. 1990. Physiology of aliphatic hydrocarbon-degrading microorganisms. Biodegradation 1:79–92.

Weise, A.M., C. Nalewajko and K. Lee. 1999. Oil-mineral fine interactions facilitate oil biodegradation in seawater. Environmental Technology 20:811–824.

Wells, P. and K.G. Doe. 1976. Results of the E.P.S. oil dispersant testing program: concentrates, effectiveness testing, and toxicity to marine organisms. Spill Technology Newsletter 1:9–16.

Wells, P.G., S. Abernethy and D. Mackay. 1982. Study of oil water partitioning of a chemical dispersant using an acute bioassay with marine crustaceans. Chemosphere 11:1071–1086.

Wells, P.G., S. Abernathy and D. Mackay. 1985. Acute toxicity of solvents and surfactants of dispersants in two planktonic crustaceans. Pp. 228–240 in Proceedings of the Eighth Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Wetzel, D.L. and E.S. Van Fleet. 2001. Cooperative studies on the toxicity of dispersants and dispersed oil to marine organisms: A 3-year Florida study. Pp. 1237–1241 in Proceedings of the 2001 International Oil Spill Conference, Tampa, Florida. American Petroleum Institute, Washington, D.C.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Wheelock, C.E., T.A. Baumgartner, J.W. Newman, M.F. Wolfe and R.S. Tjeerdema. 2002. Effect of nutritional state on Hsp60 levels in the rotifer Brachionus plicatilis following toxicant exposure. Aquatic Toxicology 61:89–93.

White, D.M., I. Ask and C. Behr-Andres. 2002. Laboratory study on dispersant effectiveness in Alaskan seawater. Journal of Cold Regions Engineering 16(1):17–27.

Wiechart, J., M.L. Rideout, D.I. Little, M. McCormick, E.H. Owens and B.K. Trudel. 1991. Development of dispersant pre-approval for Washington and Oregon coastal waters. Pp. 435–438 in Proceedings of the 1991 International Oil Spill Conference, San Diego, California. American Petroleum Institute, Washington, D.C.

Winters, J.K. 1978. Fate of petroleum-derived aromatic compounds in seawater held in outdoor tanks. Chapter 12 in Environmental studies, south Texas outer continental shelf, biology and chemistry. BLM Contract AA550-CT7-11. U.S. Department of Interior, Bureau of Land Management (BLM), Washington, D.C.

Wodzinski, R.S. and D. Bertolini. 1972. Physical state in which naphthalene and bibenzyl are utilized by bacteria. Applied Microbiology 23(6):1077–1081.

Wodzinski, R.S. and J.E. Coyle. 1974. Physical state of phenanthrene for utilization by bacteria. Applied Microbiology 27(6):1081–1084.

Wolfe, M.F., J.A. Schlosser, G.J.B. Schwartz, S. Singaram, E.E. Mielbrecht, R.S. Tjeerdema and M.L. Sowby. 1998a. Influence of dispersants on the bioavailability and trophic transfer of petroleum hydrocarbons to primary levels of a marine food chain. Aquatic Toxicology 42:211–227.

Wolfe, M.F., G.J.B. Schwartz, S. Singaram, E.E. Mielbrecht, R.S. Tjeerdema and M.L. Sowby. 1998b. Effects of salinity and temperature on the bioavailability of dispersed petroleum hydrocarbons to the Golden-Brown Algae, Isochrysis galbana. Archives of Environmental Contamination and Toxicology 35:268–273.

Wolfe, M.F., G.J.B. Schwartz, S. Singaram, E.E. Mielbrecht, R.S. Tjeerdema and M.L. Sowby. 1998c. Influence of dispersants on the bioavailability of napthalene from the water-accommodated fraction of crude oil to the Golden-Brown Algae, Isochrysis galbana. Archives of Environmental Contamination and Toxicology 35:274–280.

Wolfe, M.F., G.J.B. Schwartz, S. Singaram, E.E. Mielbrecht, R.S. Tjeerdema and M.L. Sowby. 1999a. Influence of dispersants on the bioavailability and trophic transfer of phenanthrene to algae and rotifers. Aquatic Toxicology 48:13–24.

Wolfe, M.F., H.E. Olsen, K.A. Gasuad, R.S. Tjeerdema and M.L. Sowby. 1999b. Induction of heat shock protein (hsp)60 in Isochrysis galbana exposed to sublethal preparations of dispersant and Prudhoe Bay crude oil. Marine Environmental Research 47:473–489.

Wolfe, M.F., G.J.B. Schwartz, S. Singaram, E.E. Mielbrecht, R.S. Tjeerdema and M.L. Sowby. 2001. Influence of dispersants on the bioavailability and trophic transfer of petroleum hydrocarbons to larval topsmelt (Atherinops affinis). Aquatic Toxicology 52:49–60.

Wood, P.A., T. Lunel, F. Daniel, R. Swannell, K. Lee and P. Stoffyn-Egli. 1998. Influence of oil and mineral characteristics on oil-mineral interaction. Pp. 51–77 in Proceedings of the Twenty-first Arctic and Marine Oilspill Program (AMOP) Technical Seminar, Edmonton, Alberta, Canada. Environment Canada, Ottawa, Ontario, Canada.

Wright, A.L., R.W. Weaver and J.W. Webb. 1997. Oil bioremediation in salt marsh mesocosms as influenced by N and P fertilization, flooding, and season. Water Air and Soil Pollution 95(1-4):179–191.

Wright, D.A. and G.M. Coehlo. 1996. Dispersed oil and dispersant fate and effects research: MD program results for 1995. MSRC Technical Report Series 95-013, Draft report. Marine Spill Response Corporation, Washington, D.C.

Wu, R.S.S., P.K.S. Lam and B.S. Zhou. 1997. Effects of two oil dispersants on phototaxis and swimming behaviour of barnacle larvae. Hydrobiologia 352:9–16.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
×

Wyers, S.C. 1985. Sexual reproduction of the coral Diploria strigosa (Scleratinia, Faviidae) in Bermuda: Research in progress. Proceedings of the Fifth International Coral Reef Congress, Tahiti 5:301–502.

Wyers, S.C., H.R. Frith, R.E. Dodge, S.R. Smith, A.H. Knap and T.D. Sleeter. 1986. Behavioral effects of chemically dispersed oil and subsequent recovery in Diploria strigosa (DANA). Marine Ecology 7:23–42.


Yamada, M., H. Takada, K. Toyoda, A. Yoshida, A. Shibata, H. Nomura, M. Wada, M. Nishimura, K. Okamoto and K. Ohwada. 2003. Study on the fate of petroleum-derived polycyclic aromatic hydrocarbons (PAHs) and the effect of chemical dispersant using an enclosed ecosystem mesocosm. Marine Pollution Bulletin 47:105–113.

Yapa, P.D. and H.T. Shen. 1994. Modeling of river oil spills: a review. Journal of Hydraulic Research 32(5):765–782.

Yapa, P.D. and L. Zheng. 1997. Simulation of oil spills from underwater accidents I: model development. Journal of Hydraulic Research 35(5):673–687.

Yapa, P.D. and L. Zheng. 1999. Modeling underwater oil/gas jets and plumes. Journal of Hydraulic Engineering 125(5):481–491.

Yapa, P.D., H.T. Shen, D.S. Wang and K. Angammana. 1992. An Integrated Computer Model for Simulating Oil Spills in the St. Lawrence River. Journal of Great Lakes Research 18(2):34–51.

Yapa, P.D., H.T. Shen and K.S. Angammana. 1994. Modeling Oil Spills in a River-Lake System. Journal of Marine Systems 4:453–471.

Youssef, M. and M. Spaulding. 1993. Drift current under the action of wind and waves, Pp. 587–615 in Proceedings of the Sixteenth Arctic and Marine Oil Spill Program (AMOP) Technical Seminar, Calgary, Alberta, Canada. Environment Canada. Ottawa, Ontario, Canada.


Zachleder, V. and Z. Tukaj. 1993. Effect of fuel-oil and dispersant on cell-cycle and macromolecular-synthesis in the chlorococcal alga Scenedesmus-armatus. Marine Biology 117(2): 347–353.

Zagorski, W. and D. Mackay. 1982. Studies of water-in-oil emulsions. EPS Report EE-34. Environment Canada. Ottawa, Ontario, Canada.

Zhang, D.F., A.K. Easton and J.M. Steiner. 1997. Simulation of Coastal Oil Spills Using the Random Walk Particle Method with Gaussian Kernel Weighting. Spill Sciences and Technology Bulletin 4(2):71–88.

Zhang, Y. and R.M. Miller. 1992. Enhanced octadecane dispersion and biodegradation by a Pseudomonas rhamnolipid surfactant (biosurfactant). Applied and Environmental Microbiology 58(10):3276–3282.

Zhang, Y. and R.M. Miller. 1994. Effect of a Pseudomonas rhamnolipid biosurfactant on cell hydrophobicity and biodegradation of octadecane. Applied and Environmental Microbiology 60(6):2101–2106.

Zurcher, F. and M. Thuer. 1978. Rapid weathering processes of fuel oil in natural waters—analysis and interpretations. Environmental Science and Technology 12:838–843.

Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
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Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
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Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
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Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
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Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
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Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
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Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
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Suggested Citation:"References." National Research Council. 2005. Oil Spill Dispersants: Efficacy and Effects. Washington, DC: The National Academies Press. doi: 10.17226/11283.
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Next: Appendix A: Committee and Staff Biographies »
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Approximately 3 million gallons of oil or refined petroleum products are spilled into U.S. waters every year. Oil dispersants (chemical agents such as surfactants, solvents, and other compounds) are used to reduce the effect of oil spills by changing the chemical and physical properties of the oil. By enhancing the amount of oil that physically mixes into the water, dispersants can reduce the potential that a surface slick will contaminate shoreline habitats. Although called for in the Oil Pollution Act of 1990 as a tool for minimizing the impact of oil spills, the use of chemical dispersants has long been controversial. This book reviews the adequacy of existing information and ongoing research regarding the effectiveness of dispersants as an oil spill response technique, as well as the effect of dispersed oil on marine and coastal ecosystems. Oil Spill Dispersants also includes recommended steps for policy makers faced with making hard choices regarding the use of dispersants as part of spill contingency planning efforts or during actual spills.

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