Posts Tagged ‘Deepwater Horizon’

Doomsayers confounded as Gulf of Mexico heals itself

April 10, 2013

It was touted as the greatest environmental disaster of all time when Deepwater Horizon exploded in the Gulf of Mexico killing 11 and spilling vast quantities of crude oil. But two years later in April 2012 it was clear that the Gulf was recovering much faster than expected. It was soon clear that the effect of oil eating microbes had been grossly underestimated. And now 3 years after the accident an expert in bioremediation reported  at the 245th National Meeting & Exposition of the American Chemical Society (ACS)  that “the Gulf of Mexico may have a much greater natural ability to self-clean oil spills than previously believed”.

“It shows that we may not need the kinds of heroic measures proposed after the Deepwater Horizon spill, like adding nutrients to speed up the growth of bacteria that breakdown oil, or using genetically engineered bacteria. The Gulf has a broad base of natural bacteria, and they respond to the presence of oil by multiplying quite rapidly.”

From ACS: Terry C. Hazen, Ph.D., said that conclusion has emerged from research following the 2010 Deepwater Horizon disaster, which by some estimates spilled 4.9 million barrels (210 million gallons) of oil into the Gulf of Mexico. His research team used a powerful new approach for identifying microbes in the environment to discover previously unknown bacteria, naturally present in the Gulf water, that consume and break down crude oil.

“The Deepwater Horizon oil provided a new source of nutrients in the deepest waters,” explained Hazen, who is with the University of Tennessee in Knoxville. “With more food present in the water, there was a population explosion among those bacteria already adapted to using oil as a food source. It was surprising how fast they consumed the oil. In some locations, it took only one day for them to reduce a gallon of oil to a half gallon. In others, the half-life for a given quantity of spilled oil was 6 days. This data suggests that a great potential for intrinsic bioremediation of oil plumes exists in the deep sea and other environs in the Gulf of Mexico.” 

Hazen spoke at a symposium, “Environmental Fate of Petroleum Oils and Dispersants in the Marine Environment,” that included other reports relating to the Deepwater Horizon spill. They were among 12,000 reports being presented at the ACS meeting, which continues through Thursday. Abstracts of the oil spill symposium appear at the end of this press release.

Oil-eating bacteria are natural inhabitants of the Gulf because of the constant supply of food. Scientists know that there are more than 600 different areas where oil oozes from rocks underlying the Gulf of Mexico. These oil seeps, much like underwater springs, release 560,000-1.4 million barrels of oil annually, according to the National Research Council.

Hazen’s team used a powerful new approach for identifying previously recognized kinds of oil-eating bacteria that contributed to the natural clean-up of the Deepwater Horizon spill. In the past, scientists identified microbes by putting samples of water into laboratory culture dishes, waiting for microbes to grow and then using a microscope to identify the microbes. The new approach, called “ecogenomics,” uses genetic and other analyses of the DNA, proteins and other footprints of bacteria to provide a more detailed picture of microbial life in the water.

“The bottom line from this research may be that the Gulf of Mexico is more resilient and better able to recover from oil spills than anyone thought,” Hazen said. “It shows that we may not need the kinds of heroic measures proposed after the Deepwater Horizon spill, like adding nutrients to speed up the growth of bacteria that breakdown oil, or using genetically engineered bacteria. The Gulf has a broad base of natural bacteria, and they respond to the presence of oil by multiplying quite rapidly.”

 

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Two years after BP oil spill, natural recovery is much greater than expected

April 21, 2012

Immediately after this accident it was being touted as the greatest environmental catastrophe of all time. The hyperbole is of course necessary to generate headlines and the “alarmist brigade” who believe that humanity is the worst thing that has ever happened to the earth are quick to pile on the exaggerations. But the earth is rather more resilient than they would like us to believe.

NewsWise reports:

This Friday, April 20, will mark two years since the explosion aboard the Deepwater Horizon oil rig caused vast quantities of crude oil to flow into the Gulf of Mexico.

But despite the size of the spill, “the natural recovery is far greater than what anybody hoped when it happened,” said James Morris, a professor of biology at the University of South Carolina. “The fears of most people – that there would be a catastrophic collapse of the ecosystem in the Gulf – never materialized.” …….

He’s been impressed with the recovery of the area’s ecology.

“The fisheries have come back like gangbusters,” he said. “One of the interesting findings was that after the oil spill, bait fish populations collapsed, and predator populations boomed. The reason was that there was no fishing pressure on the top predators because people stopped fishing after the spill. So the predator fish populations rebounded, and they grazed down their prey.”

“The marshes that I saw actually looked very good,” he added. “And I was taken to the worst by officials who wanted to impress us that the damage was really significant, and that you could still find oil in the marshes. And you can still find oil in the marshes, but the greatest damage to the place where they took us was from the trampling by the reporters, scientists, and agency people tromping around out there looking for damage.”

“There’s some evidence that perhaps there are some lingering problems, but it’s not entirely clear,” Morris said. “For example, there’s ambiguity about whether there’s been an effect on species like dolphins. Some people will remain forever convinced that dolphins are washing up because of this spill, but in a recent report that NOAA just released, the dolphin mortality was unexplainably high leading up to the spill. So before the spill, the dolphin mortality was higher than normal, and it’s been higher than normal since the spill.”

But “alarmism” is based on making predictions of catastrophes to come which will never be put to the test during the lifetime of the forecasters.

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Inspector General finds that Department of the Interior manipulated a scientific report to fit a political agenda

November 17, 2011

The US Inspector General has issued a report of an investigation into how the Department of the Interior manipulated and altered a 30-day report from the National Academy of Engineers. It was in response to the explosion of British Petroleum’s Deepwater Horizon oil rig on April 20th 2010, that the Department of the Interior declared a moratorium on deepwater drilling, which it extended for six months on  May 27th claiming support from the 30 day report. But the executive summary implied – falsely – that the moratorium decision had been peer-reviewed by the National Association of Engineers. The President’s Climate Change Advisor Carol Browner was the key figure involved in altering the language to make the false implication.

What is disturbing is not that politicians make political decisions but it is their cowardice in standing for their own views when they distort and manipulate what professional engineers and scientists say to imply – falsely – that there is objective support for their views.

(more…)

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BP Oil Plume was only 1/3 oil, 2/3 was gas

September 17, 2010
Gas from the damaged Deepwater Horizon wellhea...

Image via Wikipedia

Perhaps this helps to explain where all the oil went.

The plumes of oil that spewed into the Gulf of Mexico’s depths this spring and summer in the aftermath of the BP Deepwater Horizon blowout were actually only about one-third oil,  with the remainder consisting of natural gas.

Research reported online September 16 in Science found that in June, marine microbes were primarily feeding on propane and ethane in the oil plumes. “We estimate that there’s about two times as much gas sitting in those subsurface plumes as there is oil — and there’s about a million barrels of oil in them,” says David Valentine of the University of California, Santa Barbara, speaking by phone from a National Oceanic and Atmospheric Administrationresearch vessel in the Gulf. Chemists had been trying to estimate how much oxygen might disappear as microbes began degrading BP’s spilled oil. It now turns out oil is only a tiny part of the issue. “Probably 66 to 75 percent of the oxygen loss — maybe even a bit more — will ultimately come from bacterial metabolism of the gases,” Valentine projects.

https://ktwop.wordpress.com/2010/09/12/microbes-ate-the-bp-oil-plume/

The new research “is quite solid and something people will be taking seriously,” says Benjamin Van Mooy, a chemical oceanographer at the Woods Hole Oceanographic Institution in Massachusetts.

Terry Hazen of Lawrence Berkeley National Laboratory in California and his colleagues recently reported finding substantial microbial degradation of a particular fraction of the spilled oil called n-alkanes in subsea plumes. He says that the work by the Woods Hole team and the authors of the new Science paper doesn’t contradict his group’s findings. “They’re all quite consistent,” he says. Each group looked at different hydrocarbons at different times, and sometimes in different plumes. The environment is dynamic, he notes, and truly understanding what’s happening will take a lot more work.

One big concern since the initial discovery of deep-sea hydrocarbon plumes has been what will happen to oxygen concentrations near the seabed. Some scientists have questioned whether fish-suffocating dead zones might develop. But a September 7 federal study looked for evidence of such oxygen deprivation in plume zones and found none.

Based on four months of sampling data through August 9, “Oxygen levels have dropped by about 20 percent from their long-term average in this area of the Gulf,” said Steve Murawski, chief science advisor to NOAA’s Fisheries Department and head of the largely federal interagency Joint Analysis Group on the BP spill. Oxygen levels in plume zones have stabilized, he said, and “would have to decrease another 70 percent in order to be classified a dead zone.”

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