More Oxygen Needed to Finish Exxon Valdez Spill Cleanup, Study Says

Traces of crude oil that linger on the shores of Alaska’s Prince William Sound after the Exxon Valdez oil spill remain highly biodegradable, despite almost 20 years of weathering and decomposition, scientists are reporting in a new study.

Their findings, which appear in Environmental Science & Technology, suggest a simple approach for further cleaning up remaining traces of the Exxon Valdez spill. To view the full article, click on this title, “Biodegradability of Lingering Crude Oil 19 Years after the Exxon Valdez Oil Spill.”

Albert D. Venosa, Ph.D., and colleagues note that bacteria, evaporation, sunlight, and other items in Mother’s Nature’s cleanup kit work together to break down the oil and make it disappear. Scientists have known for years that adding nitrogen and phosphorus fertilizer to oil-contaminated soil can speed the growth of bacteria that decompose, or biodegrade, oil. But it has been uncertain whether oil that has lingered in the environment for almost 20 years still is biodegradable, leaving questions on whether further cleanup efforts might be worthwhile.

Venosa is director of the Land Remediation and Pollution Control Division, National Risk Management Research Laboratory for The U.S. Environmental Protection Agency.

The scientists collected oil-contaminated soil from different beaches in Prince William Sound and treated the samples with phosphorus and nitrogen fertilizer in the presence of excess oxygen from the air. According to their results, oil in the fertilized samples biodegraded up to twice as fast as oil in the unfertilized control samples, but significant biodegradation occurred even in the unfertilized controls. Oxygen supply was the major bottleneck, or limiting factor, in the field that prevented further oil decomposition.

The scientists used data from the research to postulate a treatment scheme that would involve applying simple nitrate salts to possibly break down the natural organic matter in the sediment. That would cause an increase in sediment porosity that would allow dissolved oxygen in seawater to penetrate to the oiled zone and create oxygen-rich conditions that might stimulate more rapid biodegradation.

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