Arsenic found to control uranium contamination

21 December 2017

An international team led by the University of Sheffield has discovered that the toxic element arsenic prevents uranium from an abandoned mine in the UK migrating into rivers and groundwater. The discovery could help in the remediation of former uranium mines and other radioactively contaminated areas around the world, the scientists believe.

The team of scientists - led by the Department of Materials Science and Engineering at the University of Sheffield - studied the uranium and arsenic in the topsoil at the abandoned South Terras uranium mine in Cornwall, England.

The researchers used some of the world's brightest synchrotron X-ray microscopes - the Swiss Light Source and the USA's National Synchrotron Light Source - to unearth what is believed to be the first example of arsenic controlling uranium migration in the environment. These microscopes use intense X-ray beams to focus on a spot just one-millionth of a metre in diameter.

"We use synchrotron X-rays to identify and isolate the microscopic uranium particles within the soils and determine their chemical composition and mineral species," said co-author of the study, Neil Hyatt "It's like being able to find tiny uranium needles in a soil haystack with a very sensitive metal detector."

According to the study - published on 14 December in Nature Materials Degradation - ore extraction processes and natural weathering of rock at the South Terras mine has led to the proliferation of other elements during degradation, particularly arsenic and beryllium, which were found in significant concentrations. The arsenic and uranium were found to have formed the highly insoluble secondary mineral metazeunerite.

"Significantly, our data indicate that metazeunerite and metatorbernite were found to occur in solid solution, which has not been previously observed at other uranium-contaminated sites where uranyl-micas are present," the study says.

Claire Corkhill, lead author of the study, said: "Locking up the uranium in this mineral structure means that it cannot migrate in the environment."

The researchers concluded that this process at South Terras - which operated between 1873 and 1930, producing a total of 736 tonnes of uranium - is the result of a set of "rather unique" geological conditions. "To identify this remediation mechanism at other sites, where arsenic and uranium are key co-contaminants, further detailed mineralogical assessments are required," they said. "These should be considered as an essential input to understand the ultimate environmental fate of degraded uranium ore."

"The study has far-reaching implications, from the remediation of abandoned uranium mines across the world, to the environmental clean-up of nuclear accidents and historic nuclear weapons test sites," according to the scientists. "It also shows the importance of local geology on uranium behaviour, which can be applied to develop efficient clean-up strategies."

Researched and written
by World Nuclear News