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Press Release 11-100
After Japan Nuclear Power Plant Disaster: How Much Radioactivity in the Oceans?

National Science Foundation awards rapid-response grants to establish ocean radionuclide levels from Fukushima

World map showing Cesium-137 levels in the surface ocean as of 1990.

Radiation level in the oceans in 1990, mostly from nuclear weapons testing, measured in Becquerels.
Credit and Larger Version

May 18, 2011

Among the casualties of the March 11, 2011, earthquake and resulting tsunami in Japan was the country's Fukushima Daiichi nuclear power plant.

A result of the loss of electricity, overheating at the power plant led to significant releases of iodine, cesium and other radioisotopes to the environment.

Japanese officials recently raised the severity of the nuclear power plant incident to level 7, the highest level on the international scale and comparable only to the Chernobyl incident 25 years ago, says Ken Buesseler, a chemical oceanographer at the Woods Hole Oceanographic Institution.

"When it comes to the oceans, however," says Buesseler, "the impact of Fukushima exceeds Chernobyl."

Radionuclides in seawater have been reported from the Fukushima plant's discharge canals, from coastal waters five to ten kilometers south of the plant, and from 30 kilometers offshore.

"Levels of some radionuclides are at least an order of magnitude higher than the highest levels in 1986 in the Baltic and Black Seas, the two ocean water bodies closest to Chernobyl," says Buesseler.

He has been awarded a rapid-response grant from the National Science Foundation's (NSF) Division of Ocean Sciences to establish baseline concentrations of several radionuclides in the Atlantic and Pacific Oceans.

"Finding this information early on is key to understanding the severity of the releases and related public health issues," says Buesseler.

He and colleagues will establish a baseline radionuclide data set for the Atlantic and Pacific Oceans, using an east-to-west network of sampling stations where the ability to retrieve ocean water samples already exists.

Researchers learned much from Chernobyl about the fate of radioactive fallout delivered to the oceans, and about using that fallout as a "tracer" for how fast ocean waters mix and sediments accumulate.

"After Chernobyl, fallout was measured not only in samples close to the site, such as those in the Black Sea, but as far afield as the north Pacific Ocean," Buesseler says.

Because the atmosphere and oceans are linked, scientists would expect radionuclides present in the atmosphere also to appear in the ocean, albeit at very low levels, says chemical oceanographer Henrieta Dulaiova of the University of Hawaii.

Dulaiova has also been awarded a rapid-response grant from NSF's Division of Ocean Sciences to study the fallout.

She is monitoring ocean waters to establish baseline concentrations of radionuclides, and to determine the spreading of released radionuclides.

"Like the people of Japan--though certainly to a lesser degree--we are dealing with a radiochemical situation that will be with us for a long time," says Don Rice, director of NSF's chemical oceanography program.

"To understand how the ocean and atmosphere have handled this contamination in the years ahead, we must first get a snap-shot of the situation today," says Rice. "Buesseler and Dulaiova are doing just that."

Dulaiova's study is focused on the central Pacific Ocean, and includes coastal and offshore waters off Hawaii, Guam and the Midway Islands.

"Hawaii's proximity to Japan makes it an important monitoring point," says Dulaiova. "We're conducting weekly coastal and monthly offshore water sample collections."

Bi-weekly samples from Guam are also collected, and samples are obtained from ships cruising the western Pacific.

The samples are then analyzed for cesium isotopes, whose signature allows scientists to identify radionuclides released from Fukushima.

Dulaiova is also planning to look at other radionuclides such as iodine, strontium and some actinides that were released.

"The information is needed," she says, "so that any subsequent efforts to understand the severity of the releases, the bioaccumulation of radionuclides in the ocean food web, and ocean processes and spreading patterns of the released radioisotopes, all have good baseline data."

The researchers hope to develop an understanding of marine radionuclides on a global scale.

-NSF-

Media Contacts
Cheryl Dybas, NSF, (703) 292-7734, cdybas@nsf.gov

The National Science Foundation (NSF) is an independent federal agency that supports fundamental research and education across all fields of science and engineering. In fiscal year (FY) 2014, its budget is $7.2 billion. NSF funds reach all 50 states through grants to nearly 2,000 colleges, universities and other institutions. Each year, NSF receives about 50,000 competitive requests for funding, and makes about 11,500 new funding awards. NSF also awards about $593 million in professional and service contracts yearly.

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Gamma-spectrum of a 20-liter seawater sample from Guam collected on April 11, 2011.
Gamma-spectrum of a 20-liter seawater sample from Guam collected on April 11, 2011.
Credit and Larger Version

Photo showing plastic containers filled with seawater from the central Pacific ocean.
Hundreds of liters of seawater are sampled for radioactivity from the central Pacific Ocean.
Credit and Larger Version

Satellite image from 160 kilometers north of the Fukushima power plant.
Satellite image from 160 kilometers north of the Fukushima power plant.
Credit and Larger Version

Graph of latitude vs. longitude contoured for speed showing the path of ocean currents off Japan.
A single frame from an animation showing the path of ocean currents off Japan.
Credit and Larger Version

Illustration showing human sources of Cesium-137 compared to natural radionuclides in the ocean.
Human sources of radiation in the atmosphere, compared with natural radionuclides in the ocean.
Credit and Larger Version



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