Committee on Understanding Oil Spill Dispersants: Efficacy and Effects
European Maritime Safety Agency. Seddon, A. Membrane proteins, lipids and detergents: not just a soap opera. French-McCay, D. Oil spill risk assessment: relative impact indices by oil type and location. Proceedings of the AMOP technical seminar on environmental contamination and response. Volume 2, Canada, Ottawa, — Bejarano, A.
Issues and challenges with oil toxicity data and implications for their use in decision making: A quantitative review. Wise, J. A review of the toxicity of chemical dispersants. Aurand, D. Hook, S. A review of the ecotoxicological implications of oil dispersant use in Australian waters.
Irving, P. Guidelines for the use of dispersants for combating oil pollution at sea in the Mediterranean region Part II: Basic information on dispersants and their application.
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- Oil spill dispersants : efficacy and effects.
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- Modeling Impacts and Tradeoffs of Dispersant Use on Oil Spills | SpringerLink!
Merlin, F. Coelho, G. Toxicity testing of dispersed oil requires adherence to standardized protocols to assess potential real world effects. Australian revised national plan policy and process for the recognition, application and monitoring of oil spill control agents, including dispersants, in Proceedings of the 36th AMOP Technical Seminar on Environmental Contamination and Response, Environment Canada, Ottawa, ON.
Storrie, J. International Oil Spill Conference Proceedings. March Borthwick, D. Accessed 21st October, Negri, A. Acute ecotoxicology of natural oil and gas condensate to coral reef larvae. Turner, N. Petroleum hydrocarbon toxicity to corals: A review. Lee, K. Lab tests on the biodegradation of chemically dispersed oil should consider the rapid dilution that occurs at sea. Warne, M. Revised method for deriving Australian and New Zealand water quality guideline values for toxicants.
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Singer, M. Relationship of some physical properties of oil dispersants and their toxicity to marine organisms. Sikkema, J. Mechanisms of membrane toxicity of hydrocarbons. Lewis, M. Chronic and sublethal toxicities of surfactants to aquatic animals: A review and risk assessment. Water Res. Frometa, J.
Oil spill dispersants : efficacy and effects
Toxicity of oil and dispersant on the deep water gorgonian octocoral Swiftia exserta, with implications for the effects of the Deepwater Horizon oil spill. Studivan, M. Responses of the soft coral Xenia elongata following acute exposure to a chemical dispersant. Rand, G. Fundamentals of aquatic toxicology: effects, environmental fate and risk assessment.
CRC Press p Adams, M. Species sensitivity distributions as a risk evaluation tool for oil dispersants for use in Australian marine waters. Available from www. Barron, M. Development of aquatic toxicity benchmarks for oil products using species sensitivity distributions.
Oil Spill Dispersants | Louisiana Sea Grant
Integrated Environ. George-Ares, A. Berninger, J. An initial probabilistic hazard assessment of oil dispersants approved by the United States National Contingency Plan. Lewis, A. Putting Dispersants toWork: Overcoming Obstacles. Bocard, C. Wilson, M. Oil sill science: persistence, fate, and effectiveness of dispersants used during the Deepwater Horizon Oil spill.
Sea Grant Programs of the Gulf of Mexico. Hayworth, J. Provenance of Corexit-related chemical constituents found in nearshore and inland Gulf Coast waters. Kujawinski, E. Fate of dispersants associated with the Deepwater Horizon oil spill. Gray, J. Presence of the Corexit component dioctyl sodium sulfosuccinate in Gulf of Mexico waters after the Deepwater Horizon oil spill. Dispersant response. Australian Maritime Safety Authority. Jones, R. Effects of sediments on the reproductive cycle of corals. Heyward, A. Natural inducers for coral larval metamorphosis.
Inhibition of fertilization and larval metamorphosis of the coral Acropora millepora Ehrenberg, by petroleum products. Inhibition of coral fertilisation and larval metamorphosis by tributyltin and copper. Effects of the herbicide diuron on the early life history stages of coral. Shaw, M. Predicting water toxicity: Pairing passive sampling with bioassays on the Great Barrier Reef. Tebben, J. Chemical mediation of coral larval settlement by crustose coralline algae. Water contamination reduces the tolerance of coral larvae to thermal stress.
Oil Spill Dispersants: Efficacy and Effects (2005)
Workshop on requirements for integrating oil toxicity and biological data with oil fate and transport models. EIF Acute Project. Khelifa, Environment Canada. Understanding the interactions of chemically dispersed oil droplets with suspended particulate matter SPM and how these processes affect the rate of oil biodegradation and ultimate fate of dispersed oil.
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- Comparative toxicity of five dispersants to coral larvae;
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Khelifa, Fingas, Environment Canada. Using the application of advanced genomics techniques to monitor changes in the structure and function of microbial communities as a means to monitor the impact of oil, the efficacy of countermeasures and habitat recovery.