Chemical Make-up of Gulf of Mexico Plume Determined

[HighlandReefer]

http://www.brightsurf.com/news/head...ke-up_of_Gulf_of_Mexico_Plume_Determined.html

July 21, 2011

Taking another major step in sleuthing the 2010 Deepwater Horizon oil spill, a research team led by the Woods Hole Oceanographic Institution (WHOI) determined what chemicals were contained in a deep, hydrocarbon-containing plume.

The plume was at least 22 miles long.



The scientists mapped and sampled it last summer in the Gulf of Mexico; it was a residue of the Deepwater Horizon oil spill.

The researchers took a major step in explaining why some chemicals, but not others, made their way into the plume, they report this week in the online edition of the journal Proceedings of the National Academy of Sciences.

The National Science Foundation (NSF) funded the project through three Rapid Response Research grants, which enable support for fast-response research tied to events such as the Gulf oil spill.

"By any measure, this is a remarkable study," says Don Rice, director of NSF's chemical oceanography program. "Reddy and colleagues add several critical tiles to the growing Deepwater Horizon mosaic. We now have hints of why some earlier studies appear to refute one another.

"Most importantly," says Rice, "we now have a far better understanding of how and why an oil 'spill' into the ocean from below differs from one from above. The significance of this work extends well beyond the Gulf of Mexico."

It "helps explain and sheds light on the plume formation, and verifies much of what we thought about the plume's composition," said WHOI chemist Christopher Reddy, lead author of the study.

The data "provide compelling evidence" that the oil component of the plume sampled in June 2010 essentially comprised benzene, toluene, ethybenzene, and total xylenes--together, called BTEX--at concentrations of about 70 micrograms per liter, the researchers reported.

The BTEX concentrations in the plume were "significantly higher than background," Reddy said. "We don't know with certainty the adverse effects it might cause on marine life."

WHOI scientist Judith McDowell said that acute toxicity levels of BTEX are in the range of 5 to 50 milligrams per liter for aquatic organisms--100 to 1,000 times greater than that observed in the plume.

Sublethal effects, including neurological impairment, are observed at lower levels, she said.

"In most instances the BTEX compounds are volatilized very quickly, such that exposure duration is very short," McDowell said. "The persistence of BTEX at depth poses an interesting question as to the potential effects of these compounds on mid-water organisms."

A critical component of the study was a one-of-a-kind fluid sample the team collected directly from the broken riser at the Macondo well.

To accomplish this, the team used an isobaric gas-tight sampler, a unique piece of equipment developed by WHOI geochemist Jeff Seewald and his colleagues, and intended for use collecting fluids from deep-sea hydrothermal vents.

With the gas-tight sampler and other necessary equipment, the lead scientists were shuttled from their active research vessel to a smaller boat and brought to the Ocean Intervention III, operating above the Macondo well.

They were then given 12 hours--working with many unknowns--to do something never done before.

Using an oil industry remotely operated vehicle, they maneuvered the gas-tight sampler to the source of the spill to capture an "end-member" sample of fluid as it exited the riser pipe.

No other such sample exists.

By analyzing this sample, the scientists were able to determine what was in fluid spewing from the Macondo well before nature had a chance to weather it and the exact ratio of gas and oil in the fluid.

"Getting this sample was probably the most dramatic and thrilling thing I have done in my life," Reddy said.

Using petroleum industry terms, they found a gas-to-oil ratio (GOR) of 1,600 cubic feet of gas per barrel of oil. This value is smaller than other proposed values, Reddy said, suggesting "more oil may have been coming out of the well than other people calculated."

Analyzing samples from the Macondo well and those they collected from the plume in June 2010 aboard the research vessel Endeavor, the researchers found that BTEX represented about 2 percent of the oil that came out of the well, but "nearly 100 percent of what was in the plume," Reddy said.

"A small, selective group of compounds took a right-hand turn" after exiting the well and formed the 3,000-foot-deep plume, he added.

This raises a number of questions, he said, including, "Why are those chemical there in those concentrations? Why are they so abundant in the water?"

The answers have to do with the tendency of those chemicals that "like" to dissolve in water to migrate to the plume, Reddy said.

Unlike other substances emanating from the well that degrade or evaporate in the water or at the surface, the compounds in the plume showed little evidence of biodegrading when the researchers examined the plume in June 2010.

"[O]il and gas experienced a significant residence time in the water column with no opportunity for the release of volatile species into the atmosphere," the researchers reported.

"Hence water-soluble petroleum compounds dissolved into the water column to a much greater extent than is typically observed for surface spills."

"We needed to have an 'end-member' sample, so that we could compare how nature affected the hydrocarbons as they left the riser pipe," Reddy said.

"So this story is really about, 'From pipe to plume: what chemicals got off the elevator to the surface and migrated to the plume.'"

The findings have "direct implications for the ecotoxicological impact of plumes," Reddy said. "Now that we know the compounds were there for a certain time, we need to look at what that would mean to ocean life. This paves the way to look at any environmental effects."

The key to locating and mapping of the plume and the collection of samples from the plume was the use of the mass spectrometer TETHYS integrated into the autonomous underwater vehicle Sentry, funded by NSF.

Developed by Richard Camilli of WHOI's Deep Submergence Laboratory, the mass spectrometer is capable of identifying minute quantities of petroleum and other chemical compounds in seawater instantly.

During the June 2010 expedition, Sentry/TETHYS crisscrossed the plume boundaries continuously 19 times to help determine the trapped plume's size, shape, and composition.

This knowledge of the plume structure guided the team in collecting physical samples using a traditional oceanographic tool, a cable-lowered water sampling system that measures conductivity, temperature, and depth (CTD).

The CTD also was instrumented with a TETHYS the mass spectrometer to positively identify areas containing petroleum hydrocarbons.

Guided by the Sentry/TETHYS system, the team collected about 100 samples--a painstaking and rigorous process undertaken under strict natural resource damage assessment (NRDA) protocol and supervision.

Since TETHYS is limited in its ability to analyze petroleum hydrocarbons, Reddy said, the best samples were brought back to the land-based laboratories for more sophisticated analyses, which included the help of NOAA.

The current results validated the findings reported with TETHYS, Reddy said.

Other WHOI researchers who joined Reddy and Camilli in the study were Sean P. Sylva, Karin L. Lamkau, Robert K. Nelson, Catherine A. Carmichael, Cameron P. McIntyre, Judith Fenwick, and Benjamin Van Mooy. Also participating in the study were J. Samuel Arey of the Swiss Federal Institute of Technology at Lausanne and G. Todd Ventura of Oxford University.

The research was also funded by the U.S. Coast Guard.

The National Science Foundation (NSF)

 

[disc1]

It's sad what we've done to the gulf.

The effect I would like to see someone look at is the tons and tons of surfactants and dispersants we poured onto the spill. I know for instance that had we not driven the spill underwater with surfactants, that a lot more of the volatile components would have evaporated away by now and we would just have the thick crude to deal with. The way I understand it, that would have been really bad for the beaches and tourism, but might have been a better deal for the pelagic creatures (what few are left in the gulf).

 

[billsreef]

Interesting article. I'd love to see that deep sea mass spec set up.

 

[HighlandReefer]

I would assume they have some serious money in it. :lol:

From this earlier study performed on prior oil releases in the Gulf of Mexico, they concluded the levels currently found within this plume were not a problem.

4.5 Gulf of Mexico Produced Water Bioaccumulation Study (2005)
www.ogp.org.uk/pubs/364.pdf

 

[HighlandReefer]

Wikipedia has a nice recap of this oil spill incident:

http://en.wikipedia.org/wiki/Deepwater_Horizon_oil_spill

From it:


Deepwater Horizon oil spill From Wikipedia


The oil slick as seen from space by NASA's Terra satellite on May 24, 2010
Location Gulf of Mexico near Mississippi River Delta, United States
Coordinates 28°44′12.01″N 88°23′13.78″W / 28.7366694°N 88.3871611°W / 28.7366694; -88.3871611Coordinates: 28°44′12.01″N 88°23′13.78″W / 28.7366694°N 88.3871611°W / 28.7366694; -88.3871611[1]

Date Spill date: 20 April – 15 July 2010

Well officially sealed: 19 September 2010
Cause
Cause Wellhead blowout
Casualties 11 dead
Operator Transocean under contract for BP[2]
Spill characteristics
Volume up to 4.9 million barrels (210,000,000 US gallons; 780,000 cubic meters)[3]
Area 2,500 to 68,000 sq mi (6,500 to 180,000 km²)[4]

The Deepwater Horizon oil spill (also referred to as the BP oil spill, the Gulf of Mexico oil spill, the BP oil disaster, or the Macondo blowout)[5][6][7] is an oil spill in the Gulf of Mexico which flowed for three months in 2010. It is the largest accidental marine oil spill in the history of the petroleum industry.[8][9][10] The spill stemmed from a sea-floor oil gusher that resulted from the April 20, 2010, explosion of Deepwater Horizon, which drilled on the BP-operated Macondo Prospect. The explosion killed 11 men working on the platform and injured 17 others.[11] On July 15, 2010, the leak was stopped by capping the gushing wellhead,[12] after it had released about 4.9 million barrels (780,000 m3) of crude oil.[3] An estimated 53,000 barrels per day (8,400 m³/d) escaped from the well just before it was capped.[10] It is believed that the daily flow rate diminished over time, starting at about 62,000 barrels per day (9,900 m³/d) and decreasing as the reservoir of hydrocarbons feeding the gusher was gradually depleted.[10] On September 19, 2010, the relief well process was successfully completed, and the federal government declared the well "effectively dead".[13]

The spill caused extensive damage to marine and wildlife habitats and to the Gulf's fishing and tourism industries.[14][15] Skimmer ships, floating containment booms, anchored barriers, sand-filled barricades along shorelines, and dispersants were used in an attempt to protect hundreds of miles of beaches, wetlands, and estuaries from the spreading oil. Scientists also reported immense underwater plumes of dissolved oil not visible at the surface[16] as well as an 80-square-mile (210 km²) "kill zone" surrounding the blown well.[17] In late November 2010, 4,200 square miles (11,000 km²) of the Gulf were re-closed to shrimping after tar balls were found in shrimpers' nets.[18] The amount of Louisiana shoreline affected by oil grew from 287 miles (462 km) in July to 320 miles (510 km) in late November 2010.[19] In January 2011, an oil spill commissioner reported that tar balls continue to wash up, oil sheen trails are seen in the wake of fishing boats, wetlands marsh grass remains fouled and dying, and crude oil lies offshore in deep water and in fine silts and sands onshore.[20] A research team found oil on the bottom of the seafloor in late February 2011 that did not seem to be degrading.[21] On May 26,2011, the Louisiana Department of Environmental Quality extended the state of emergency related to the oil spill.[22] By July 9, 2011, roughly 491 miles (790 kilometers) of coastline in Louisiana, Mississippi, Alabama and Florida remained contaminated by BP oil, according to a NOAA spokesperson.[23]

The U.S. Government has named BP as the responsible party, and officials have committed to holding the company accountable for all cleanup costs and other damage.[24] After its own internal probe, BP admitted that it made mistakes which led to the Gulf of Mexico oil spill.[25] In June 2010 BP set up a $20 billion fund to compensate victims of the oil spill. To July 2011, the fund has paid $4.7 billion to 198,475 claimants. In all, the fund has nearly 1 million claims and continues to receive thousands of claims each week.[26].............................................................

 

[HighlandReefer]

This picture says it all for me.

Not to demean the loss of human life as well.

 

[billsreef]

They'll be finding problems from this for years to come

 

[disc1]

They'll be finding problems from this for years to come

A thousand years from now, acrchaeologists will study the effects this still has on the planet.

 

[cody6766]

For what it's worth, I saw a pretty large pod of dolphins swimming off the sand bar at Perdido Key 2 weeks ago. I know that doesn't mean ALL is well, but at least they're still around. The beaches are also nice and clean in my area. I also know that we were on the very edge of the mess. I'm sure it's different out west.

 

[HighlandReefer]

Another recent article:


Oil spill didn't hurt seagrass-dwelling juvenile fish

Gulf fishes' health remains unknownBy Janet Raloff Web edition : Wednesday, July 13th, 2011 Text Size

http://www.sciencenews.org/view/gen...l_didn’t_hurt_seagrass-dwelling_juvenile_fish


STILL SWIMMING

Research vessels in the Gulf of Mexico find that 20 types of fish, including pipefish of the genus Syngnathus (shown), were at least as abundant during and after the 2010 Deepwater Horizon spill as compared with previous years.KIKE CALVO VWPics/SuperStockYoung fish remained abundant last summer and fall in some areas of the Gulf of Mexico that were slammed by the catastrophic 2010 BP oil spill, a new analysis finds. The finding runs counter to initial expectations of huge losses, especially among fish born during or shortly after the April 20, 2010 well blowout.

F. Joel Fodrie of the University of North Carolina at Chapel Hill and Kenneth Heck Jr. of the University of South Alabama Dauphin Island Sea Lab tallied numbers of juveniles retrieved by research vessels between mid-July and October 31, 2010. The abundance of these youngsters offered one gauge of whether eggs and larval fish had taken a big, deadly hit from early exposure to hydrocarbons spewed during the months-long spill.

Among 20 types of fish most commonly found in seagrass meadows "” natural nurseries in the northern Gulf "” juveniles of a dozen types were present in numbers notably higher than during the previous four years. For the remaining eight types of fish, Fodrie and Heck found that 2010 post-spill catch rates were "œstatistically indistinguishable" from earlier years. The pair detailed their findings online July 6 in PLoS ONE.

The research vessels collected almost 170,000 individual fish over the past five years, representing 86 different types, in trawl nets towed through seagrass beds. The 2010 average of 1,989 fish per kilometer constituted an increase of 84 percent over the average from similar trawls by the research ships over the previous four years. Such large trawl yields following the spill probably reflect a reduction in fishing pressure owing to a wide post-spill ban on commercial harvests, Heck says. Initial fishery closures began May 2 (12 days after the blowout) and continued in some places through April 19, 2011 (9 months and 4 days after the well was capped).

Still unknown, the researchers acknowledge, is the health of fish reared in polluted regions of the Gulf. "œOur initial results don't show cause for concern," Heck says. "œBut we don't know what we're going to see in a few years in terms of their growth or survival." Indeed, he notes, "œthere's reason to believe, from some prior work, that there may be delayed effects."

 

[HighlandReefer]

Oiled and dead marsh grass mixed with absorbent boom is seen on the banks of Barataria Bay due to the BP oil spill near Port Sulphur, Louisiana March 31, 2011.

Credit: Reuters/Sean Gardner

 

[bayoupr]

Also for what it's worth, I work offshore in the Gulf just off of Grand Isle La. and I see large schools of dolphins along with sea turtles everyday. What has really hurt us has been the oil that got into the marsh and the inland waters where shrimp and certain fish go to to breed before returning to the Gulf.