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Ten years ago, a powerful explosion destroyed an oil rig in the Gulf of Mexico, killing 11 workers and injuring 17 others. Over a span of 87 days, the Deepwater Horizon well released an estimated 168 million gallons of oil and 45 million gallons of natural gas into the ocean, making it the largest accidental marine oil spill in history.
Researchers from Woods Hole Oceanographic Institution (WHOI) quickly mobilized to study the unprecedented oil spill, investigating its effects on the seafloor and deep-sea corals and tracking dispersants used to clean up the spill.
In a review paper published in the journal Nature Reviews Earth & Environment, WHOI marine geochemists Elizabeth Kujawinski and Christopher Reddy review what they — and their science colleagues from around the world — have learned from studying the spill over the past decade.
“So many lessons were learned during the Deepwater Horizon disaster that it seemed appropriate and timely to consider those lessons in the context of a review,” says Kujawinski. “We found that much good work had been done on oil weathering and oil degradation by microbes, with significant implications for future research and response activities.”
“At the end of the day, this oil spill was a huge experiment,” adds Reddy. “It shed great light on how nature responds to an uninvited guest. One of the big takeaways is that the oil doesn’t just float and hang around. A huge amount of oil that didn’t evaporate was pummeled by sunlight, changing its chemistry. That’s something that wasn’t seen before, so now we have insight into this process.”
Released for the first time in a deep ocean oil spill, chemical dispersants remain one of the most controversial debates in the aftermath of Deepwater Horizon. Studies offer conflicting conclusions about whether dispersants released in the deep sea reduced the amount of oil that reached the ocean surface, and the results are ambiguous about whether dispersants helped microbes break down the oil at all.
“I think the biggest unknowns still center on the impact of dispersants on oil distribution in seawater and their role in promoting — or inhibiting — microbial degradation of the spilled oil,” says Kujawinski, whose lab was the first to identify the chemical signature of the dispersants, making it possible to track in the marine environment.
Though the authors caution that the lessons learned from the Deepwater Horizon release may not be applicable to all spills, the review highlights advances in oil chemistry, microbiology, and technology that may be useful at other deep-sea drilling sites and shipping lanes in the Arctic. The authors call on the research community to work collaboratively to understand the complex environmental responses at play in cold climates, where the characteristics of oil are significantly different from the Gulf of Mexico.
“Now we have a better sense of what we need to know,” Kujawinski says. “Understanding what these environments look like in their natural state is really critical to understanding the impact of oil spill conditions.”
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Materials provided by Woods Hole Oceanographic Institution. Note: Content may be edited for style and length.
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