Category Archives: gulf of mexico clean-up

E&E: Gas still seeping from busted Gulf well

Nathanial Gronewold, E&E reporter
Published: Friday, July 12, 2013

HOUSTON — A crew continued to try to regain control of a busted offshore natural gas well in the Gulf of Mexico last night after the federal government approved an intervention plan.

Late yesterday afternoon, officials at Energy Resources Technology LLC (ERT) began pumping drilling mud into the stricken shallow-water well in an attempt to stop the out-of-control flow of natural gas. The company lost control of the well, one of three on the offshore platform, during work aimed at temporarily plugging it.

Aside from the gas leak, the Bureau of Safety and Environmental Enforcement and the U.S. Coast Guard reported a 4-mile-wide sheen on the surface of the waters surrounding the well when the accident occurred Tuesday. BSEE spokeswoman Eileen Angelico said the sheen was caused by a small volume of associated condensates released with the gas when the crew lost control of the well.

The agencies said that about 3.6 barrels of light condensate was leaking from the site every 24 hours. “The well is flowing gas, so it’s gas, water and condensate,” Angelico said.

As of late last night, there was no word on whether the ERT crew had been able to stop the gas leak with the drilling mud operation. The government says the company’s plan was formally approved after a review, and BSEE and the Coast Guard are monitoring the entire operation from a neighboring platform.

“Procedures for the source control operations were prepared by ERT and reviewed and approved by BSEE,” the agency said in its most recent notice on the situation. “Once confirmation of the successful well kill operation is received, BSEE will review ERT’s plan for plugging the well.”

The platform where the accident occurred rests atop the Ship Shoal Block, and offshore concession about 70 miles south of Port Fourchon, La. The small, mostly gas production operation sits in about 146 feet of water.

Special thanks to Richard Charter

Grist: Look what the gas and oil industry did to the Gulf of Mexico – again

http://grist.org/news/look-what-the-gas-and-oil-industry-did-to-the-gulf-of-mexico-again/

Why wasn’t the rig properly decommissioned and the well plugged when they ended operations as their lease requires? DV

By John Upton

gulf-of-mexico-sheen

Sheens of oil atop the Gulf of Mexico have become a depressingly familiar sight – the result of reckless drilling by the oil and gas industry. Here is a photograph shot Wednesday of the latest such debacle. An old natural gas well off Louisiana’s coastline was being sealed shut Monday when it began leaking, 144 feet beneath the water’s surface. This photo is one of a series taken during a flight over the site by On Wings of Care, an environmental nonprofit.

On Wings of Care
From On Wings of Care’s blog post:
A badly leaking natural gas well in the Ship Shoal Lease Block #225 of the Gulf of Mexico has spread an ugly, toxic mass of oily rainbow sheen over several square miles not far from the top of Ewing Bank – an area once rich with marine life, especially large plankton feeders and many other species of marine life. We have flown that area in eight different five-to-six-hour wildlife survey flights just within the past three weeks, helping scientists find and study whale sharks.

Today, despite mirror-calm seas, excellent water and air visibility, and clear blue water, we saw barely a trace of marine life in this area.

Fuel Fix reports that the well continues to leak a “briny mix” of natural gas, light condensate, and seawater: Late Wednesday, workers were preparing to begin pumping drilling mud into the well, the first stage in an operation to kill it permanently, 15 years after it last produced gas commercially and four decades after it was drilled.

For much of the day, they were waiting for proof that gas at the platform the well serves had dropped to safe levels so that workers could board the facility. In the meantime, federal regulators and well control specialists waited at a neighboring platform.

The Coast Guard and the federal Bureau of Safety and Environmental Enforcement said they plan to conduct an investigation.

John Upton is a science fan and green news boffin who tweets, posts articles to Facebook, and blogs about ecology. He welcomes reader questions, tips, and incoherent rants: johnupton@gmail.com.

Special thanks to Richard Charter

Penn State University: Biologist investigates lasting ecological impacts of Deepwater Horizon oil spill. At the bottom of the Gulf of Mexico, in the vicinity of the Macondo well, Charles Fisher discovered previously unseen impacts on coral communities.

http://news.psu.edu/story/281127/2013/07/10/research/biologist-investigates-lasting-ecological-impacts-deepwater-horizon

By Sara LaJeunesse
July 10, 2013

Billions of dollars.

That’s what’s at stake for BP as a result of the damage caused to ecosystems in the Gulf of Mexico from the Deepwater Horizon oil spill.

News of that spill — which began on April 20, 2010, with an explosion onboard the Deepwater Horizon drilling rig that killed 11 people and injured 17 — dominated the media for weeks. Millions watched with a feeling of helplessness as the rig sank and over the next 86 days over 200 million gallons of oil spewed out of the Macondo well and into the ocean.

Five months after the spill was capped, the federal government estimated the marine animal death toll at 6,104 birds, 609 sea turtles, and 100 mammals, including dolphins. But what of the deep-water corals that provide habitat and reproductive grounds for numerous species of fish, shrimp, and crabs?
According to Charles Fisher, professor of biology at Penn State, these corals and the organisms they support are important components of a healthy deep sea and open-ocean ecosystem. That’s why both BP and the government are closely collaborating with him on his investigation of the disaster’s impact.

“It’s a new experience for me to conduct research that could have such a dramatic financial impact and also to have so many people involved in everything we do,” says Fisher. “You have to be very careful to document all the details and be very sure that you’re right with your interpretations. We’re always careful, but every little comment we make could be misinterpreted, so we’re being extra conservative with this data set.”

Calling on a World Expert
It was the middle of May, about a month after the oil spill began. With classes over, Fisher was looking forward to spending a little extra time on his farm, located 25 miles east of State College. But that was before the calls started to come in from federal agencies.

Over a period of about a week, Fisher was contacted independently by program officers from the National Science Foundation (NSF), the National Oceanic and Atmospheric Administration (NOAA), and the Bureau of Ocean Energy Management (BOEM). All had financially supported Fisher’s research in the Gulf in the past, and all were now calling on him to help assess the impact and damage of the oil spill to the deep-sea ecosystems he knows so well.

Fisher “was selected as an expert based on his extensive and unique experience working on the ecology of the cold seep and deep-sea coral communities in deep-sea, hard-bottom habitats in the Gulf of Mexico,” says Robert Ricker, southwest region branch chief of NOAA’s Office of Response and Restoration. “He is a recognized leader in his field, and we pick leaders.”

Fisher agreed to help. After all, he already was leading another big research program that had overlapping goals — to locate, describe, and study deep-water coral communities throughout the Gulf of Mexico that could potentially be impacted by energy company activities.

Coral impacted by the Deepwater Horizon spill

For nearly three decades, Fisher has been studying the physiology and the ecology of the communities of animals that inhabit cold seeps — areas of the ocean floor where methane and other hydrocarbon-rich fluid seeps out — and hydrothermal vents — underwater fissures in the Earth’s surface that emit geothermally heated water rich in reduced chemicals — in the deep sea. Marine invertebrates such as clams and tubeworms live in these dark places, surviving the lack of sunlight by forming symbiotic associations with bacteria. The bacteria use the reduced chemical compounds contained in the water as an energy source and, in turn, supply nutrition to their animal hosts.

Fisher has visited these deep places in submarines some 120 times. “When you’re down there, you feel like you’re on another planet because the landscape is like nothing you’ll see on the surface of the Earth,” he says. “You’re oftentimes in a place where nobody has been before, so you have in the back of your mind that you may see something that nobody has ever seen. Every once in a while you do.”
Among his accomplishments are the discovery of ice worms living on methane-rich ice at the bottom of the Gulf of Mexico and the unraveling of the complex physiological ecology of giant hydrocarbon-seep tubeworms, among the longest-lived animals on Earth. The bizarre two-meter-long tubeworms use their buried roots to suck up toxic hydrogen sulfide that lies deep in the sediments of the seafloor. They then pass the hydrogen sulfide to symbiotic bacteria living inside their bodies.

These bacteria, in turn, oxidize the sulfide and provide nutrition back to the worms. The end product is sulfuric acid, which the tubeworms pump back into the sediments, where yet other bacteria use methane to remake the sulfide and supply it back to the worms.

Whenever possible, he works with Jim Brooks, president and CEO of TDI Brooks International, a company that specializes in conducting offshore surface geochemical exploration for petroleum producers.

“Jim’s group discovered seep communities in the Gulf of Mexico in the 1980s when he was on the faculty at Texas A&M University,” says Fisher. “I’ve been involved in multiple projects with him over the years. In addition to his expertise in oil geochemistry and prospecting, his company can handle all the administration, travel, budgets, and reporting, and I get to just concentrate on the science.”

So in October 2010, with TDI Brooks International managing the expedition, Fisher and his colleagues set out for the Gulf of Mexico on board the NOAA ship, the Ronald H. Brown.

Discovering Damaged Corals
For nearly a month, the team revisited deep-sea coral sites all over the northern Gulf of Mexico that they had discovered the year before during a previous project. Each time they stopped, they used Jason II — a remotely operated vehicle (ROV) or submersible designed for scientific investigation of the deep ocean and seafloor — to sample and study corals and associated animals.

“We revisited all of the sites for which we had good baseline data,” says Fisher. “We were all quite pleased to find that there was no obvious damage to the deep-water coral communities at any of these sites.”
Although they had covered a four hundred-mile span east to west and a depth range from 1,300 feet to almost 6,500 feet, Fisher and his colleagues had observed only a couple of coral sites close by the Macondo well. So, on the last dive of the expedition they decided to check out a very promising area they had identified about seven miles southwest of the well and 45 miles from shore.

The research vessel coasted to a stop with nothing but the occasional seabird in flight to break the monotony of the view. Six hours into the ROV’s dive, Fisher was working in the ship’s laboratory, glancing up every now and then at the 36-inch screen through which video was streaming from the vehicle’s camera, now positioned 4,500 feet below the ocean’s surface. As the ROV moved across the seabed, the camera recorded scenes of mud, mud, and more mud, he remembers. Then, all of a sudden, a coral popped into view, and another and another. But something was wrong. The animals were not brightly colored as they are supposed to be.

Fisher recalls jumping up and sprinting across the deck of the ship to the control van. “Stop!” he warned. “Don’t touch anything!”

The ROV pilots were about to take a sample, but he asked them instead to zoom in with the camera. What he saw were corals covered in dark gunk and dripping snot. “When a coral is physically insulted, it reacts by exuding mucus,” he explains. “It’s a normal stress reaction. It helps to clear the surface if there’s something irritating or sticking on it.” To avoid stressing the animals further, the team decided to minimize sampling.

“Normally we would take little pieces of lots of different corals for genetic identification and population genetic studies,” Fisher says, “but we decided to back off on that and try to do our sampling around the edges, taking only samples of corals that we didn’t recognize. We also collected one of the impacted corals so we could take a closer look at the gunk and what was underneath and determine whether the coral branch was dead or alive.”

By the end of the cruise, the team had visited 14 sites, all but one of which were at distances greater than nine miles from the Macondo well. Only corals at that last site, just under seven miles southwest of the well, had clearly been impacted.

As the researchers headed home with their samples, they began to discuss future expeditions. They knew that impact to at least some corals could be readily identified visually and, since the organisms are attached to rocks and don’t swim or float away when impacted, they provide a record of past events. Their next steps would be to discover the full extent of the oil spill’s reach with regard to corals, and to determine the animals’ ultimate fate. Would they live or would they die?

Learn how Fisher’s colleague Iliana Baums is investigating the use of molecular tools to detect signs of stress in corals before they become ill.

The Impact
On five subsequent cruises over the next two years, Fisher and his team have explored for additional sites and revisited the established ones to check the corals’ statuses. They have carefully monitored about 50 of the corals that they first discovered in November 2011. Those that were not too heavily impacted seem to be recovering.

“When I say recover,” notes Fisher, “I don’t mean that tissue died and the coral got better. I mean they were covered with slime, but they never died. These corals still do not look as healthy as corals at other sites, and we may have to monitor them for several years before we will know their ultimate fate.”

The corals that were heavily impacted, on the other hand, are largely not recovering. “We are seeing absolute proof of total death of parts of them,” says Fisher. Since corals are colonial, branching animals, parts of them can die while other parts remain alive.

Specifically, at the first damaged site they witnessed — the last site of the October cruise — the researchers have discovered that 86 percent of the coral colonies show signs of damage, with 46 percent exhibiting impact to more than half the colony, and 23 percent displaying more than 90 percent damage.

At each site visited, the researchers deployed markers and set up permanent monitoring stations with a goal of returning to them again and again to monitor both natural processes and, potentially, long-term effects.

“At that depth and at those temperatures in the deep sea, life passes at a slow pace,” notes Fisher. “These are animals that often live 500 years. They live slow; they die slow. We’ll have to monitor the sites for a decade before we’ll have very much confidence we know the full extent of the impact.”

What’s Next?
The team’s second cruise, which took place in December 2010 and made use of the Alvin deep-diving submarine, included Helen White, a geochemist from Haverford College. White used state-of-the art oil fingerprinting technology and determined that the brown muck on the corals did, indeed, include oil from the Macondo well.

Fisher’s research to date has demonstrated that the Deepwater Horizon oil spill killed some corals. As a result, BP is going to have to pay. But how much and to whom?

“People have asked me how much a dolphin is worth, and there is no clear-cut answer,” says Timothy Zink, spokesperson for NOAA, the organization that oversees natural resource damage assessments performed by researchers like Fisher, tabulates the check for the parties responsible, and formulates and carries out a plan for restoring the ecosystem.

“The public needs to be compensated for its losses, and not just for the resource itself, but for the human use of the resource — such as recreational fishing, bird watching, and going to the beach — as well,” said Zink. “The final price that BP will pay will be based on the full cost of restoring the environment back to what it was on the day the oil spill happened.”

Unfortunately for deep-water corals, the full effects of the spill may not be felt for many years, too late for any near-term settlement to fully cover them.

“I believe everyone involved would like to settle as soon as we can,” says Fisher. “However, the full extent of damage to deep-sea ecosystems may not manifest itself until after a settlement is reached. If corals all over the deep gulf start dying, and we thought only those very close to the Macondo well would die, then we have to reassess the situation.” In that case, Zink says, the investigation could be reopened.

BP has already paid over $20 billion to cover some of the damages from the spill, and in a November 2012 settlement with the Justice Department, agreed to pay $4 billioon in criminal fines. The company has also committed hundreds of millions to research into understanding the effects of oil spills on ecosystems and preventing future disasters.

Despite the trouble the oil spill caused for deep-sea ecosystems, Fisher says he’s not against deep-water drilling for oil. “As much as I love the ocean, there are a lot of resources in the ocean, and as long as I drive a car, it would be pretty hypocritical of me to say that we shouldn’t obtain those resources for human use,” he notes. “I’m conflicted in the way I feel about it, but I don’t think this means we should stop accessing oil in the marine environment.

“I think, in general, oil companies try pretty damn hard to be responsible.” Fisher adds. “It’s in their best interest to be responsible. This has cost BP billions of dollars; they don’t want it to happen again. In a way, this oil spill has been a beneficial wake-up call in that it tells us that the unthinkable can happen. I think a result of it will be better oversight by oil companies and the federal government.”

Charles R. Fisher is professor of biology, cfisher@psu.edu.

deep corals
This photo, taken as part of a major research project led by Penn State Professor of Biology Charles Fisher, shows a reef formed by the coral species Lophelia pertusa at 450m below the surface of the Gulf of Mexico with an orange brisingid starfish in the foreground and a school of fish overhead.
Image: Image courtesy of Lophelia II 2010 Expedition, NOAA OER BOEM

Special thanks to Richard Charter

The Advertiser.com: Study urges spending on coastal restoration

http://gazette.com/study-urges-spending-on-coastal-restoration/article/feed/20921
Written by Janet McConnaughey Associated Press

I think it is very strange to see EDF team up with Walmart’s foundation and downright wrong that Alabama is funding a convention center out of restoration funds that should be going to improve water quality in the Gulf. DV

July 10, 2013

NEW ORLEANS -Wildlife tourism, from hunting and fishing to bird and dolphin watching, is a $19 billion-a-year business along the Gulf of Mexico, and states spending their settlement money from the 2010 BP oil spill should focus on restoring ecologically sensitive areas that keep guides, hotels and others working, a study says.

The study, commissioned by the Environmental Defense Fund and the Walton Family Foundation, was released Tuesday at a replica of a historic lighthouse while the seafood restaurant next door geared up for lunch and sailboats set out on Lake Ponchartrain.

Wildlife tourism brings in 20 million visitors who pay $5.3 billion a year in federal state and local taxes, according to the study, which drew financial and tourist data from the U.S. Fish and Wildlife Service, the federal Bureau of Labor Standards and from parish and county tourism bureaus.

Wildlife watching draws 11.5 million people a year to Texas, Louisiana, Mississippi, Alabama and Florida, according to the study. It said recreational fishing attracts 7.5 million visitors and hunting 2.7 million.

The 53 coastal counties and parishes in those states have more than 25,000 tourism-related businesses and nearly 500,000 associated jobs, it said.

The study by Datu Research LLC of Durham, N.C., was released in Louisiana because its marshes and estuaries are the nursery for 90 percent of the Gulf states’ seafood fisheries, said Jim Wyerman, spokesman for the Environmental Defense Fund. The state’s 400 miles of coastline are so fringed with wetlands that they comprise 7,700 miles of shoreline.

“Unlike the other states, we don’t have the pristine beaches and hotels along the beaches,” said Capt. Ryan Lambert, owner of Cajun Fishing Adventures in Buras. “So our wetlands are vitally important.”

That’s why BP money should go into restoring coastal marshes and estuaries, said Jefferson Parish President John Young.

The study includes a state-by-state list of 1,100 coastal guides and outfitters. Those companies bring in business for 11,000 restaurants, hotels and motels, it said.

An email survey of 106 guides and outfitters found that 55 percent said at least half their clients ask for restaurant recommendations; 40 percent said at least half their clients ask for hotel recommendations. Restaurants and hotels and motels also recommend guide businesses, it said.

BP PLC has provided $1 billion as a “down payment” for coastal restoration from the spill, which spewed more than 200 million gallons of oil into the Gulf of Mexico in 2010. It says it has spent more than $24 billion on spill-related expenses, including cleanup costs and compensation for businesses and individuals.

A trial set to resume in September will decide how much money the federal government and Gulf Coast states should get under the Clean Water Act, the Oil Pollution Act of 1990 and other environmental regulations.

Projects approved this year for some of the first $1 billion in restoration money range from $320 million to increase the size of four barrier islands off Louisiana to an $85.5 million project to improve a beachfront park in Alabama and build a convention center hotel there.

“We know now, in 2013, the direct, positive linkage between environmental protection along the coast and economic opportunity -and even economic survival,” said Steve Cochran, director of the Environmental Defense Fund’s Mississippi River Delta Reconstruction Program.

“We have this opportunity -from a tragic source -to do a lot of things that we know we should do to protect our economy. They’re environmental things but they protect our economy.”

Special thanks to Richard Charter

PNJ.com: Vessel to study the oil spill’s effects – Sea Shepherd, Ocean Alliance partner to research whales in Gulf

http://www.pnj.com/

Jul. 4, 2013 |

Written by Kevin Robinson

Ocean Alliance Founder Roger Payne and a group of environmental activists with the Sea Shepherd Conservation Society are making a port of call in Pensacola on board the RV Odyssey. The conservation group and the 93-foot research vessel is operating in the Gulf of Mexico collecting data on whales and sea-life in the gulf as it relates to the BP oil spill.

seashepard
Watching the Whales: Listen to Eliza Muirhead, discuss how 12 members of the Sea Shepherd Conservation Society and Ocean Alliance’s mission, Operation Toxic Gulf, will spend the remainder of July tracking sperm whales 100 miles off the coast of the Gulf of Mexico.

The Sea Shepherd Conservation Society and the Ocean Alliance have arrived in Pensacola with the 93-foot research vessel RV Odyssey. The group is making a port of call in Pensacola as part of its Operation Toxic Gulf mission in the Gulf of Mexico. / Tony Giberson/tgiberson@pnj.com

An International crew of the scientists and activists will be docking in Pensacola periodically this month while they study the effects of the BP oil spill. About 12 members of the Sea Shepherd Conservation Society and Ocean Alliance will spend the remainder of July tracking sperm whales 100 miles out in the Gulf of Mexico.

“The sperm whale is at the top of the food chain, so all of the toxins consumed by smaller animals eventually end up accumulating inside the sperm whales,” crew member Eliza Muirhead said. The crew of the Odyssey will examine changes in sperm whale health and behavior to get a snapshot of how toxins from the Deep Water Horizon oil spill and the chemical dispersant sprayed to contain it are affecting marine ecology. To help people understand their research and its ramifications, the crew allowed the public to tour the Odyssey on Wednesday. About a dozen people wandered the 93-foot craft, snapping pictures and asking questions.

The Sea Shepherd Conservation Society is a controversial environmental group featured on the popular Discovery Channel program “Whale Wars.” The group has gained notoriety for its aggressive tactics pursuing, harassing and sometimes boarding Japanese ships in the Southern Ocean conducting research by killing whales. Sea Shepherd contends the Japanese whaling operation is illegal and immoral. “My brother and nephew watch ‘Whales Wars,’ so when they told me they were coming down I decided to come along,” said Wendy Hauman. “I got to talk to the crew and the scientists. It’s cool to see what they do in person and see live some of what they do on TV.”

The team has a full laboratory on the ship to begin preliminary analysis of the data collected during the expedition. Lead researcher Robert Payne said it could be up to a year before the findings of the study are published.
Payne, the founder of Ocean Alliance, has studied whale behavior since 1967. He and colleague Scott McVay are credited for discovering that humpback whales sing songs.

Payne said that by partnering, Ocean Alliance and the Sea Shepherds are able to accomplish goals they could never have achieved alone. “The value of this study is that normally scientists work in their own little world,” Payne said. “People who take action work in a whole different world. Those two worlds are finally getting together.”
Payne said that by pairing the research-minded Ocean Alliance and the action-oriented members of the Sea Shepherds, the expedition could more fully investigate an environmental disaster that he said has been largely marginalized by special interests and the federal government.

“The mission of one side is to confuse things and our job is to clarify,” Payne said. “We’re dealing with a problem you can’t see, so it’s easy for people to pretend it doesn’t exist.” The research expedition will be documented online on the Sea Shepherd Conservation Society and Ocean Alliance Facebook pages.

Special thanks to Richard Charter