미국 럿거스 대학교(Rutgers University) 소속 과학자와 협력자로 구성된 연구진은 새 연구결과에서 우라늄을 뿜어내는 박테리아의 변형(strain)이 원자력 무기를 만들기 위해 가공된 우라늄 광석이 존재하는 지역에서 오염된 지하수를 정화하는 열쇠를 쥐고 있을 가능성이 있다고 발표했다.

연구진은 콜로라도 라이플(Rifle)시에 위치한 오래된 우라늄 광석공장에 있는 토양에서 박테리아를 발견했다. 이 곳은 콜로라도주에 있는 9개의 노후 우라늄 광석공장 중 하나로, 원자력 무기 생산이 최고조일 때 가동됐다.

 

 

 

According to new research conducted by a team of scientists and collaborators at Rutgers University, a strain of bacteria that "breathes" uranium may hold the key to cleaning up polluted groundwater at sites where uranium ore was processed to make nuclear weapons. The group discovered the bacteria in soil at an old uranium ore mill in the city of Rifle, Colo., almost 200 miles west of Denver. The site is one of nine such mills in the state used during the peak of nuclear weapons production.

 

The research is part of a U.S. Department of Energy program to examine if microorganisms can lock up uranium that leached into the soil years ago and now makes well water in the area unsafe to drink. The team's discovery is the first known instance where scientists have found a bacterium from a common class known as betaproteobacteria that breathes uranium. This bacterium can breathe either oxygen or uranium to drive the chemical reactions that provide life-giving energy.

 

"After the newly discovered bacteria interact with uranium compounds in water, the uranium becomes immobile," said Lee Kerkhof, a professor of marine and coastal sciences in the School of Environmental and Biological Sciences. "It is no longer dissolved in the groundwater and therefore can't contaminate drinking water brought to the surface." Kerkhof leads the Rutgers team that works with U.S. Department of Energy researchers.

 

The Rutgers team was able to isolate the uranium-breathing bacterium in the lab by recognizing that uranium in samples from the Rifle site could be toxic to microorganisms as well as humans. The researchers looked for signs of bacterial activity when they gradually added small amounts of dissolved uranium at the right concentration back to the samples where uranium had become immobilized. Once they found the optimal uranium concentrations, they were able to isolate the novel strain.

 

Exactly how the strain evolved, Kerkhof said, "we are not sure." But, he noted that bacteria have the ability to pass genes to each other. So just like bacteria pick up resistance to things like antibiotics and heavy metal toxicity, this bacterium "picked up a genetic element that's now allowing it to detoxify uranium, to actually grow on uranium." His research team has completed sequencing its genome to support future research into the genetic elements that allow the bacterium to grow on uranium.

 

What Kerkhof is optimistic about is the potential for these bacteria to mitigate the specific groundwater pollution problem in Rifle. Scientists at first expected the groundwater to flush into the Colorado River and carry the dissolved uranium with it, where it would get diluted to safer levels. But that hasn't happened. Other potential methods of remediation, such as digging up the contaminated soil or treating it with harsh chemicals, are thought to be too expensive or hazardous.

 

"Biology is a way to solve this contamination problem, especially in situations like this where the radionuclides are highly diluted but still present at levels deemed hazardous," said Kerkhof. If the approach is successful, it could be considered for other sites where uranium was processed for nuclear arsenals or power plant fuel. While the problem isn't widespread, he said there's potentially a lot of water to be concerned about. And the problem could spread beyond traditional places such as ore processing sites.

 

[출처 = Water World / 2015년 6월 16일]