Texas Marine Scientist Studies Oil Spill Effects on Oxygen Levels in the Gulf of Mexico “Dead Zone”

June 14, 2010

PORT ARANSAS, Texas — Marine scientist Zhanfei Liu is studying the effects of the Deepwater Horizon oil spill on oxygen levels in the northern Gulf of Mexico in part through a recently received National Science Foundation grant for Rapid Response Research (RAPID).

Zhanfei Liu

Zhanfei Liu holds a water sample from a recent cruise to the northern Gulf of Mexico.

The $90,000 grant provided additional funding for a research cruise Liu and his colleagues took from May 21-27 to the Gulf of Mexico off the coast of Louisiana.

The scientists are studying marine chemistry in an extensive area of low oxygen (hypoxia) that occurs annually there known as the "Dead Zone." The growing oil spill is likely to encompass this area.

"We believe that the oil spill will exacerbate the development of hypoxia in the Dead Zone," says Dr. Liu, assistant professor of marine science at The University of Texas at Austin Marine Science Institute.

The Dead Zone has already been of concern for many years, given its detrimental impact on fisheries in the northern Gulf region, such as shrimp. Liu fears the oil spill will only enhance this problem.

"The oil spill is the biggest environmental disaster in the U.S., bigger than the Exxon Valdez," says Liu, "and will have a large economic impact on the region."

Liu and his collaborator Dr. Nathaniel Ostrom from Michigan State University expect that ocean bacteria will consume oil and in the process consume oxygen, which would lead to greater levels of hypoxia. They also propose that the oil slick on the surface of the Gulf will limit natural gas exchange between the atmosphere and ocean, further reducing the amount of oxygen in the water.

Map of the Gulf of Mexico

Map showing the estimated extent of the nearshore Deepwater Horizon oil spill (from NOAA) and the hypoxic Dead Zone (from LUMCON). Five of Dr. Liu's six water sampling sites are shown. Graphic: David Steadman

During their recent May cruise, Liu and colleagues sampled the water at six locations in the northern Gulf. One of the sites, near Breton Sound at the mouth of the Mississippi River, has never before been hypoxic, but the scientists were surprised to find it test positive.

"This is probably an indication of the oil spill effect," says Liu, "because the current in that area would bring oil from the spill there. If we find that it is still hypoxic in August, we will be fairly confident that this may be caused by the spill."

Liu will embark on another research cruise with his colleagues in August of this year and again in May 2011. They also hope to sample the ocean this winter.

Liu received $44,612 and Ostrom received $44,758 from the $90,000 RAPID grant.

Their May 2010 cruise was primarily funded by a grant to Dr. Wayne Gardner by the National Oceanic and Atmospheric Association to study nitrogen dynamics in the Dead Zone.

Gardner, Liu, Dr. Peter Thomas and Dr. Ed Buskey are faculty at The University of Texas at Austin Marine Science Institute who have research projects in the area.

For more information, contact: Lee Clippard, College of Natural Sciences, 512-232-0675; Dr. Zhanfei Liu, assistant professor, 361-749-6772.

5 Comments to "Texas Marine Scientist Studies Oil Spill Effects on Oxygen Levels in the Gulf of Mexico “Dead Zone”"

1.  DAVID AVERETT said on June 21, 2010

The last paragraph refers to NOAA. This a federal "administration" agency and not an association.

2.  Phil Edmonds said on June 24, 2010

Probably a stupid question as this is right outside my field, but what causes the 'dead zone'? Is it a natural phenomena or is it an anthropogenic effect?

Thanks,
Phil

3.  Stephen Macko said on June 24, 2010

Another Texas connection on this oil spill study is that MSU collaborator Nathanial Ostrom was a Ph.D. student of Stephen Macko (Ph.D. Texas, Chemistry/Port Aransas Marine Science Institute).

4.  Geoffrey Henderson said on July 5, 2010

Sir,

The dead zone is caused by man-made contaminants from agricultural and industrial wastes, i.e. fertilizers, pesticides, flowing into the Gulf from the Mississippi
River. The massive amount of offshore drilling contributes as well; now more than ever.

Regards,
Geoffrey H.

5.  Candice Sammons said on Nov. 7, 2010

What method did you use to measure the amount of oxygen and what would you consider a normal amount of oxygen to be?