Oil slick
(Sep. 11, 2012) — Researchers from the
University of Rochester and Texas A&M University have found that,
over a period of five months following the disastrous 2010 Deepwater
Horizon explosion and oil spill, naturally-occurring bacteria that exist
in the Gulf of Mexico consumed and removed at least 200,000 tons of oil
and natural gas that spewed into the deep Gulf from the ruptured well
head.
The researchers analyzed an extensive data set to determine not only
how much oil and gas was eaten by bacteria, but also how the
characteristics of this feast changed with time.
"A significant amount of the oil and gas that was released was
retained within the ocean water more than one-half mile below the sea
surface. It appears that the hydrocarbon-eating bacteria did a good job
of removing the majority of the material that was retained in these
layers," said co-author John Kessler of the University of Rochester.
The results published this week in Environmental Science and Technology
include the first measurements of how the rate at which the bacteria
ate the oil and gas changed as this disaster progressed, information
that is fundamental to understanding both this spill and predicting the
behavior of future spills.
Kessler noted: "Interestingly, the oil and gas consumption rate was
correlated with the addition of dispersants at the wellhead. While there
is still much to learn about the appropriateness of using dispersants
in a natural ecosystem, our results suggest it made the released
hydrocarbons more available to the native Gulf of Mexico
microorganisms."
Their measurements show that the consumption of the oil and gas by
bacteria in the deep Gulf had stopped by September 2010, five months
after the Deepwater Horizon explosion. "It is unclear if this indicates
that this great feast was over by this time or if the microorganisms
were simply taking a break before they start on dessert and coffee" said
Kessler. "Our results suggest that some (about 40%) of the released
hydrocarbons that once populated these layers still remained in the Gulf
post September 2010, so food was available for the feast to continue at
some later time. But the location of those substances and whether they
were biochemically transformed is unknown."
Previous studies of the Deepwater Horizon spill had shown that the
oil and gas were trapped in underwater layers, or "plumes," and that the
bacteria had begun consuming the oil and gas. By using a more extensive
data set, the researchers were able to measure just how many tons of
hydrocarbons released from the spill had been removed in the deep Gulf
waters. The team's research suggests that the majority of what once
composed these large underwater plumes of oil and gas was eaten by the
bacteria.
Professor John Kessler, recently appointed as Associate Professor in
the Department of Earth and Environmental Sciences of the University of
Rochester, worked with graduate research assistant Mengran Du at Texas
A&M University to analyze over 1300 profiles of oxygen dissolved in
the Gulf of Mexico water spanning a period of four months and covering
nearly 30,000 square miles.
The researchers calculated how many tons of oil and gas had been
consumed and at what rate by first measuring how much oxygen had been
removed from the ocean. Mengran Du explained that "when bacteria consume
oil and gas, they use up oxygen and release carbon dioxide, just as
humans do when we breathe. When bacteria die and decompose, that uses up
still more oxygen. Both these processes remove oxygen from the water."
Du added that it is this lower oxygen level that the researchers could
measure and use as an indicator of how much oil and gas had been removed
by microorganisms and at what rate.
The work was supported by the National Science Foundation with
additional contributions from the National Oceanic and Atmospheric
Administration, the Sloan Foundation, BP/the Gulf of Mexico Research
Initiative, and the Chinese Scholarship Council.
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