Category Archives: ocean pollution

Huffington Post: Gulf Of Mexico Oil Sheens Likely Came From Deepwater Horizon Wreckage, Study Shows

http://www.huffingtonpost.com/2013/07/16/gulf-of-mexico-oil-sheens_n_3605468.html

By MICHAEL KUNZELMAN 07/16/13 11:47 AM ET EDT

NEW ORLEANS – A team of researchers has concluded that pockets of oil trapped in the wreckage of the sunken Deepwater Horizon are the likely source of oil sheens that have been spotted in the Gulf of Mexico near the site of the deadly 2010 explosion on the BP-leased drilling rig.

A newly published study by the Woods Hole Oceanographic Institution and the University of California at Santa Barbara rules out BP’s sealed-off Macondo well and natural oil seeps as possible sources of the sheens.

The researchers said their conclusions are based on an analysis of 14 sheen samples collected from the surface of the water during two trips to the Gulf.

Last year, BP PLC said it capped an abandoned piece of equipment that was believed to be the source of a sheen.

Special thanks to Richard Charter

Live Science: Oil Sheens Near Deepwater Horizon Spill from Sunken Rig

http://www.livescience.com/38200-deepwater-horizon-oil-sheen-source.html

Douglas Main, Staff Writer | July 16, 2013 10:29am ET

deepwater-horizon-oil-sheen
Oil sheens overlying the wreckage of the Deepwater Horizon, first spotted in September 2012. The oil is coming from the wreckage of the rig, new research shows.
Credit: David Valentine, UCSB

Recurrent sheens of oil in the Gulf of Mexico near the site of 2010’s Deepwater Horizon oil spill have baffled researchers and led to fears that oil may once again be spewing from the seafloor well.
But a study published this week in the journal Environmental Science and Technology shows that there is no new leak: The oil is coming from isolated tanks and pockets within the wreckage of the sunken rig, according to a statement from the National Science Foundation (NSF), which funded the research.

The mysterious sheens of oil were first reported in September 2012. To find out their provenance, researchers took samples of the sheens and compared them against others taken from various sources, including floating pieces of wreckage recovered shortly after the Deepwater Horizon drilling rig exploded and sunk on April 20, 2010.

“This appears to be a slow leak from the wreckage of the rig, not another catastrophic discharge from a deep oil reservoir,” David Valentine, a geochemist at the University of California at Santa Barbara, said in the statement. “Continued oil discharge to the Gulf of Mexico from the wreckage of the Deepwater Horizon rig is not a good thing, but there is some comfort that the amount of leakage is limited to the pockets of oil trapped within the wreckage of the rig.”

Using a technique developed by Woods Hole Oceanographic Institution researcher Chris Reddy, the scientists found that the oil from the sheens reported last fall matched those taken from the floating wreckage. The samples both contain uniform amounts of olefins, a chemical used in drilling fluids, according to the statement. Olefins are not found in crude oil, meaning the sheens aren’t likely to originate from the Macondo well or any other natural oil seep in the Gulf, the NSF reported.

When the rig sunk, it held tanks containing hundreds of barrels filled with a mixture of drilling mud and oil. Researchers speculate that these tanks are leaking after being gradually corroded by seawater, according to the statement.

The Deepwater Horizon oil spill was the biggest in American history, releasing about 205 million gallons (776 million liters) of oil. The area of the Gulf near the spill has been negatively affected ever since; tar balls containing dangerous bacteria have washed up on beaches in the area and there has been an unusually high death rate for dolphins.

Email Douglas Main or follow him on Twitter or Google+. Follow us @livescience, Facebook or Google+. Article originally on LiveScience.com.
– See more at: http://www.livescience.com/38200-deepwater-horizon-oil-sheen-source.html#sthash.M2hByyJZ.dpuf

Special thanks to Richard Charter

Oilspillsolutions.co.uk: 2013: The Year of the Deadly Oil Spill?

http://www.oilspillsolutions.co.uk/2013-the-year-of-the-deadly-oil-spill-care2-com-blog/

http://www.care2.com/causes/2013-year-of-the-deadly-oil-spill.html

by Beth Buczynski
July 14, 2013 5:00 am

As the age of coal and oil draws to a close, the “drill baby drill” crowd has become louder and more rambunctious than ever. No longer content to poison our oceans with offshore drilling platforms, tar sands oil has become all the rage.

For years those who see the futility of barreling head first down Hydrocarbon Lane have warned that unleashing Canada’s tar sands would be a climate death sentence. But who cares about the dumb old climate, right? Humans don’t act until it’s personal. Well, now it is.

In the past six months we’ve seen a rash of deadly oil spills, the most recent of which have resulted in multiple human fatalities. These disasters show that no matter how we attempt to extract, transport or consume it, oil is killing us. And it won’t stop until we realize the folly of our addiction.

Below are details of just a few of the major oil spills that have happened in the first half of 2013:
Minnesota
In early March a 26,000-gallon tank car (just one car in a mile-long train) transporting crude oil from Canada ruptured in Western Minnesota. The disaster leaked 30,000 gallons of crude something (the rail company refused to say whether it was tar sands oil or not, but you put the pieces together) onto the frozen ground.
Thanks to the cold conditions, the oil was as thick as molasses, making it nearly impossible to get up off the ground.

Quebec
Just days ago, a train moving crude oil to Irving Oil Corp.’s Saint John refinery in New Brunswick suddenly derailed right in the middle of the town of Lac-Megantic. The immediate explosion engulfed the center of the small town in a literal lake of fire that killed at least 13 people and left dozens more missing.
“This is another data point that shows how much costlier and riskier rail is compared to pipelines,” John Stephenson, a Toronto-based fund manager, told Bloomberg.com.
But before you believe himŠ

Arkansas
In April of this year, a 65-year-old ExxonMobil pipeline burst without warning, dumping Canadian tar sands oil all over the small town of Mayflower, Arkansas.
Within minutes, “the slick of noxious black crude” spewing from the pipeline “was eight feet wide, six inches deep and growing fast.”
Ultimately, 5,000-barrels were spilled from the 22 foot-long gash in the pipe, covering suburban lawns and roads in a toxic goo. Residents reported putrid smells and burning sensations in their eyes, noses and throats.
Exxon immediately went to work blocking any information about how or why the disaster occurred, public relations maneuvering that has since caused the State of Arkansas and the federal government to file a suit against the oil company.

Alberta
And just last month, heavy rain (that’s right, nothing more than rain) allegedly ruptured a pipeline owned by Enbridge Inc., Canada’s largest pipeline company. According to most reports, 750-barrels of synthetic crude oozed out of the pipeline before the company managed to shut it down.
The rupture occurred in Line 37, which serves CNOOC Ltd’s Long Lake oil sands project in northern Alberta and carries huge amounts of oil into America. Enbridge gloated in the fact that there were no human habitations or roads nearby, as if that simply wipes away the harm that hundreds of barrels of oil has on the eco-system.

These are only a few of the major oil spill disasters that have occurred this year, and we’re only seven months in. The truth is, there is no safe way to transport poison. Floods happen. Human error happens. And when these statistical certainties happen to a train or pipeline carrying thousands of barrels of toxic oil, death always happens next.
If the Keystone XL pipeline expansion is approved, however, the next time might be in your backyard.

Special thanks to Richard Charter

Nola.com: Louisiana Seafood: In wake of BP spill and river diversions, oysters show strain

http://www.nola.com/environment/index.ssf/2013/07/louisiana_seafood_bp_oil_spill.html#incart_river_default

By Benjamin Alexander-Bloch, NOLA.com | The Times-Picayune
Email the author | Follow on Twitter
on July 13, 2013 at 5:00 PM, updated July 14, 2013 at 1:03 AM

oysters in the  gulf

It’s difficult to talk about Louisiana seafood these days without the BP oil spill working its way into the conversation. It wasn’t that long ago, after all, that television screens were filled with high-def images of fouled coastal marsh and angry fishermen forlornly staring at their idled fleet.

But some scientists and fishers say it remains impossible to gauge the 2010 spill’s precise environmental and biological toll. Asked about a 15-percent drop in the statewide oyster harvest in the two years following the spill, experts say the spill definitely continues to be a potential factor, but is only one of several.

Perhaps as damaging as the oil and the temporary closures of thousands of acres of Gulf waters in the wake of the disaster three years ago, they say, was the millions of gallons of fresh Mississippi River water that flowed into the Lake Pontchartrain Basin east of the river in 2010 and 2011. Oysters, essentially immobile and unable to withstand the torrents of fresh water, bore the brunt.

A closer look at the preliminary data from the Louisiana Department of Wildlife and Fisheries reveal wide variation from area to area. But in terms of oyster production, the Lake Pontchartrain Basin east of the Mississippi River saw the worst of it.

Before the oil spill, Louisiana regularly led the nation in oyster production, with the Lake Pontchartrain Basin traditionally the state’s most productive harvest grounds.

From 2002-2009, the Pontchartrain Basin averaged 7.2 million pounds of oyster meat annually. But beginning in 2010, that production took a nose dive – falling to 2.6 million pounds that year, then to 2.4 million pounds in 2011 and, finally, to 1.8 million pounds in 2012.

Overall, just in 2011 and 2012, oysters in Pontchartrain Basin saw a 71-percent drop compared to the 2002-09 average.

While oyster production showed an increase in the Terrebonne Basin, east of the Mississippi River, the decline in the Lake Pontchartrain Basin was so pronounced that it pulled the overall statewide numbers down in all three years.

“It’s been really down. ŠNormally we always put 400 sacks on the trucks but the last three years or so, we have only been able to put on 150, 130, 140 sacks,” said Shawn Assavedo, an oyster harvester in Pontchartrain Basin out of eastern St. Bernard Parish. “That’s exactly what it’s been since they opened that siphon.

“That freshwater, it goes into Lake Borgne and it has killed a lot of oysters there, really a massive amount of oysters.”

Now the measly haul of oysters in Pontchartrain Basin often is dwarfed by the expanse of the 18-wheeler trucks’ beds.

Brad Robin Sr. talks about how one of the most production areas in the country for harvesting oysters is still struggling to recover.

Brad Robin Sr., a fellow St. Bernard oysterman who typically harvested out of Lake Borgne, said that his old stopping grounds have had “zero percent come back.”
“There is no life left there,” Robin said. “The east side of the river is way down and still trying to recover, trying to get some sort of normalcy out of it all.”

But the fears is that the decline east of the river could continue for an extended period: The Pontchartrain public harvesting grounds in the Breton and Chandeleur sounds provided the majority of the oyster seed that harvesters transplanted to grow oysters in private leases across the state.

“Our public reefs on the east side of the river, that was our mother seed ground,” said John Tesvich, chairman of the Louisiana Oyster Task Force. “That is basically wiped out right now.”

The freshening of the water
While the oil spill is an easy fall guy – and many scientists continue to study its impact, often in secrecy for future oil-spill litigation – scientists and some fishers also point to the Mississippi River diversions in 2010 and 2011 as major culprits for the plummeting oyster haul.

“Freshwater is the biggest killer of oysters in the world,” said Greg Voisin, an eighth-generation oysterman who helps run his family business, Motivatit Seafoods, in Terrebonne Parish.

Ken Brown, a Louisiana State University biologist, said he and his colleagues haven’t seen any major effects from the oil on adult oyster mortality rates, but when fresh water dilutes salinity levels “below 10 parts per thousand, and especially if you get below 5 parts per thousand, then oysters have problems.”

Hoping to keep the oil that was spewing from BP’s Macondo well away from Louisiana’s fragile inshore marshes and estuaries, the state in 2010 ran the Davis Pond and Caernarvon river diversions at full speed for several months to push the oily Gulf waters away. The diversions did appear to help drive out some of the oil but they also dropped salinity levels in much of that Pontchartrain Basin to levels unsustainable to oysters.

Then in 2011, when Mississippi River levels in New Orleans approached the 17-foot flood stage because of heavy rainfall in the Midwest, the Bonnet Carré Spillway west of the city was opened from early May through mid-June, further freshening the basin.
That fresh water that poured from Bonnet Carré into Lake Pontchartrain eventually pushed into the surrounding waters of Lake Borgne and the Mississippi Sound.

The state had anticipated the impact from the Bonnet Carré opening. The Louisiana Wildlife and Fisheries Commission chose to open oyster reefs within portions of the Pontchartrain Basin area before opening the spillway, allowing oyster fishers to take oysters from those grounds and move them to private leases in higher salinity areas.

Oysters thrive when the salinity is 15 parts per thousand, about half the salinity of seawater. They struggle when it falls below 10 parts per thousand and die off when it dips below 5 parts per thousand.

Parts of Pontchartrain Basin fell to less than 3 parts per thousand during periods of 2010 and 2011, according to state and federal data.

Oyster growth problems
Because fresh water diversions carry so much sediment – they often are envisioned as land builders – the diversions in 2010 and 2011 also buried or at least partially covered much of the cultch in Pontchartrain Basin, according to a Wildlife and Fisheries assessment.

Oysterman Brad Robin Jr. explains how small pieces of chopped concrete made from the slabs of flooded Hurricane Katrina homes helps oysters grow.

Cultch is the broken stones and oyster shells that form the reefs upon which oyster larvae attach and grow into adult oysters. Lose the cultch, and the oysters have nothing to latch onto.

Also, in some areas east of the river, much of the oyster shell was covered with an unidentified algae that seems to have prevented oyster seed from taking hold on the reefs.

Some oyster fishers pointed to that algae as an indicator that the oil spill had ruined their crop, but scientists say it also might have been created by the excess nutrients in the river water that poured into the basin.

While nutrients carried by freshwater play an important role in the high productivity of the Gulf systems, they also bring algae blooms, which consume oxygen and create “dead zones” with fish- and oyster-killing low oxygen levels.

Tesvich said he and others also worry about the quality of that river water and whether problems with oyster reproduction on the existing cultch could be tied to the oil.

“Was there some sort of industrial waste or agricultural runoff in that river water?” he asked. “Or is it something from BP in addition to the river water that is causing something? There are a lot of things we just don’t know about these oysters coming back.”

But it wasn’t all bleak where the oyster harvest is concerned.

State Wildlife and Fisheries Department data show that in 2011 the Barataria Basin, to the west of the river, harvested 23 percent more oysters than its pre-spill average and then, in 2012, harvested 44 percent more.

And because the price of oysters continued to rise, the Wildlife and Fisheries numbers show that Barataria oyster fishers earned about $18 million in 2012 – about 116-percent more than they had earned on average between 2002 and 2009.

In 2012, the average price statewide was about $3.70 per pound at the dock, or about 30 percent above the pre-spill average of about $2.80 per pound.

Nonetheless, Al Sunseri, who owns P & J Oyster Co. with his brother Sal, thinks the Wildlife and Fisheries numbers are wrong when it comes to the amount of oysters that have been harvested in Barataria the past few years.

“I’m not a scientist, but I just have some common sense,” Sunseri said. “There is something going on, because we are not seeing the oysters come back like they always did.”

Still, Mitch Jurisich, who harvests a large chunk of the oysters in Barataria, recently said that the last few years have been “the best crop in our family’s history.”

“Jurisich and others in the area did extremely well,” Tesvich acknowledged, but he added that other parts of the Barataria “have been having trouble because of so much fresh water.”

And then there is Terrebonne Basin, which was hopping the past few years, according to the state landings data and discussions with oystermen.

A basin that on average harvested 2.3 million pounds of oysters between 2002 and 2009, Terrebonne produced 4.4 million pounds in 2011 and 4.3 million pounds in 2012. That’s about an 85-percent increase.

Most of that increase in Terrebonne Basin actually could be tied to decreases elsewhere, as oystermen relied on that area to cover declines. For instance, the number of trips oyster fishers took in the basin grew from an average of 7,814 between 2002-2009 to 16,928 trips in 2012 – a 116-percent increase.

“Our oysters being available, it allows the areas east of the river to rest and go through whatever cycle they are going through,” Voisin said. “You have to utilize the resource here when it’s not there, and there when it’s not here, and that’s just the way that we’ve be doing things throughout history.”

Looking forward
Despite the 15-percent drop in statewide oyster production the past couple years, the state’s oyster fishing industry as a whole doesn’t appear to have fared too bad financially.

Because the price per pound has risen since the spill, the overall amount earned by oyster harvesters across the state in 2011 and 2012 actually rose by about 10 percent compared to the pre-spill average, according to the Wildlife and Fisheries’ at-the-dock price and landings data.

Also, the state’s 2012 basin-by-basin data and the statewide 2012 data from the federal Fisheries Service remain very preliminary. Often, the federal data rise by several million pounds when finalized.

The Fisheries Services is expected to release more official 2012 statewide catch numbers this fall.

The conventional wisdom is that two or three years after a major fresh water event, oysters will grow back strong. Often in history, it creates a boom crop. With less salinity, for example, there often are fewer predators that eat the oysters.

So some oyster fishers are waiting, fingers crossed, hoping that in the next few years there will be a bumper season.

Count Assavedo among them. Assavedo is among those oystermen plowing ahead in the Lake Pontchartrain Basin, spending money to put down new cultch in the hope that better days are ahead.

It’s a risk he feels he has no choice but to take.

“If it is not fresh cultch material, you are not getting anything. But my new stuff out there, that I laid down, it seems to be doing good,” Assavedo said. “The oysters stuck to it and are growing. I haven’t lost any of them yet. ŠI just hope that continues.”

________________

Wayne Gordon, an employee with P&J Oyster Co., loads up a delivery truck on Oct. 28, 2010, with the first load of oyster that Pete Vujnovich harvested near Port Sulphur since the closure of area 13 back on May 20, 2010.
NOLA.com | The Times-Picayune archive

Special thanks to Richard Charter

E&E: Company caps leaking offshore well

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

HOUSTON — A mixture of gas, condensate and water has stopped leaking into the Gulf of Mexico at a broken offshore well, according to government regulators and the company that owns it.

Work is now shifting to permanently cap the well, which rests in about 140 feet of water about 70 miles south of Port Fourchon, La. Rough waters are making that work more difficult, but officials at the Bureau of Safety and Environmental Enforcement say they will continue to monitor the crew’s work to plug the well with cement, which the agency foresees happening over the weekend.

Energy Resource Technology GOM Inc., the operator of the well and now a subsidiary of Talos Energy LLC, halted the leak last night by pumping drilling mud into the well after BSEE approved the plan.

ERT said the volume of hydrocarbons released into the environment is low enough that it would naturally dissipate and evaporate, much as naturally occurring oil sheens in the Gulf of Mexico do. No cleanup operations are planned at this time.

“The discharge volumes were very low, and the sheen that had formed earlier in the week appears to have evaporated almost completely,” a Talos spokesman said in an email.

“Permanent plugging and cementing is what will come next,” the spokesman added, confirming that choppy seas were slowing the pace of the intervention.

ERT workers were performing maintenance on the well earlier this week when they noticed a loss of control and escaping natural gas. The platform was promptly evacuated, and no injuries were sustained.

The platform, located in the offshore area known as Ship Shoal, is connected to another nearby platform by a bridge, and intervention work and situation monitoring have been occurring largely from that installation. The Coast Guard also responded to the incident.

The installation was built in the 1970s and has been a marginal producer since at least the late 1990s. According to BSEE, the
response team is now considering how to permanently close it.

“BSEE engineers are reviewing plans and procedures from ERT for moving forward to isolate the well’s hydrocarbon zone,” the agency said in a release. “A BSEE supervisory inspector is on board the platform monitoring the ongoing site assessment and well analysis.”

Special thanks to Richard Charter