How bacteria, currents and local topography helped rid the Gulf of spilled oil

Posted: 01/11/2012 in all marine news

gCaptain –

A fortuitous combination of ravenous bacteria, ocean currents and local topography helped to rapidly purge the Gulf of Mexico of much of the oil and gas released in the Deepwater Horizon disaster of 2010, researchers reported Monday.

After spewing oil and gas for nearly three months, the BP PLC (BP, BP.LN) well was finally capped in mid-July 2010. Some 200,000 tons of methane gas and about 4.4 million barrels of petroleum spilled into the ocean.

Given the enormity of the spill, many scientists predicted that a significant amount of the resulting chemical pollutants would likely persist in the region’s waterways for years.

According to a new federally funded study published Monday by the National Academy of Sciences, those scientists were wrong.

By the end of September, the vast underwater plume of methane, plus other gases, had all but disappeared.

By the end of October, a significant amount of the underwater offshore oil–a complex substance made from thousands of compounds–had vanished as well.

“There was a lot of doomsday talk,” said microbiologist David Valentine of the University of California at Santa Barbara and co-author of the study, published in Proceedings of the National Academy of Sciences.

But it turns out “that the ocean harbors organisms that can handle a certain amount of input” in the form of oil and gas pollutants, he said.

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