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The Great Lakes region is blessed with an abundance of water. But water quality, affordability, and aging water infrastructure are vulnerabilities that have been ignored for far too long. In this series, members of the Great Lakes News Collaborative, Michigan Public, Bridge Michigan, Great Lakes Now, The Narwhal, and Circle of Blue, explore what it might take to preserve and protect this precious resource. This independent journalism is supported by the Charles Stewart Mott Foundation.

Bacteria clean-up: Should we let nature clean up oil spills?

Great Lakes Now Episode 1010

Brian Owens is with Great Lakes Now.

Natural populations of oil-degrading bacteria could help to clean up freshwater rivers and lakes after spills from pipelines and trains, researchers have found after experiments that simulated spills in a Canadian lake.

Vince Palace, who led the work at the International Institute for Sustainable Development’s Experimental Lakes Area in western Ontario, said that the methods currently in use for cleaning up spills in rivers and lakes – mostly digging up and dumping contaminated soil – are not particularly effective. They only recover around 20 to 40% of the oil, and the physical damage done to shorelines and streambeds can be worse than the effects of the spill itself, taking as long as a decade to recover.

Palace and his colleagues wanted to see if leaving the oil in place to be cleaned up by natural processes like bacteria might be a practical alternative.

“We know that in the marine environment there are bacteria that can degrade oil,” said Palace. “We wanted to know if naïve freshwater systems have that same capacity.”

Credit Great Lakes Now Episode 1010
The International Institute for Sustainable Development’s Experimental Lakes Area in western Ontario has small enclosures set up in one of the lakes it uses for scientific study, to test the impact of oil spills and potential cleanup methods.

The researchers created enclosures along the shore of one of the experimental lakes and dumped either conventional crude oil or the diluted bitumen that comes from Canada’s oil sands to simulate a spill. After 72 hours they cleaned it up as best they could, then examined what happened to the residual oil over the course of the summer and into the winter.

The team found that after the spill, the composition of the bacterial community in the soil and water shifted dramatically. Rare types of bacteria, which had barely been present before, suddenly became the most common – and most of them had the capacity to degrade oil by using it as a source of food, suggesting a natural recovery could be a potential solution to spills in places like the Great Lakes, which are criss-crossed by pipelines and home to several refineries.

Currently, the Enbridge Inc. Line 5 pipeline under the Straits of Mackinac and Line 3 pipeline cutting through Minnesota and Wisconsin are the sources of controversy as residents and activists worry over the potential ramifications of an oil spill from either pipeline.


It is not yet clear, however, what effect such a drastic change in the make-up of the bacterial community might have on the wider ecosystem.

Zhanfei Liu, a chemist at the University of Texas at Austin who studied the response of bacterial communities in the Gulf of Mexico to the Deepwater Horizon oil spill, said he was not surprised to see a surge in oil-degrading bacteria in freshwater ecosystems. Though people tend to think that the microbial community in the Gulf of Mexico, with its thousands of natural oil seeps, is particularly adapted to deal with oil, Liu says that is a misconception – that capacity is present in ecosystems everywhere.

“Mother nature is ready to act,” he said. “If you spill oil anywhere, you’re going to see oil degraders take off.”

The next step for Palace and his team is to do some more specific experiments on how, exactly, the bacteria break down the oil, whether they react differently to the two types of oils, and how fast they work. That will help determine whether leaving most of the job of cleaning up to bacteria is a viable solution.

The biggest hurdle, he said, is public perception: people just don’t like the idea of leaving nature to clean up our messes. While Palace is not yet endorsing leaving spill clean-up to the bacteria, he hopes this work can help to address some of those concerns.

“We’re trying to provide the scientific data that can tell us whether this is a valid approach,” said Palace. “We’ve seen enough so far to say it’s at least worth evaluating further.”

The Great Lakes News Collaborative includes Bridge Michigan; Circle of Blue; Great Lakes Now at Detroit Public Television; and Michigan Radio, Michigan’s NPR News Leader; who work together to bring audiences news and information about the impact of climate change, pollution, and aging infrastructure on the Great Lakes and drinking water. This independent journalism is supported by the Charles Stewart Mott Foundation.

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