A technique developed at the University of Toronto (U of T) provides a new way to monitor and improve the success of clean-up efforts of dangerous contaminants found in underground water.
Cleaning up dangerous contaminants, like, dry-cleaning fluids, solvents and petroleum hydrocarbons, found in underground water, presents one of the most urgent challenges facing environmental science.“The most common method to clean-up groundwater is biodegradation, using microbes to consume the contaminants and break them down into more benign end products that are not harmful to the environment,” said U of T geochemist Barbara Sherwood Lollar, the scientist who initiated the concept and goals for the EPA report and is one of its five international authors.
The report outlines how this can be done using a novel technique called Compound Specific Isotope Analysis, developed in U of T’s Stable Isotope Laboratory.
The elements of carbon that form the basis for the hydrocarbon contaminants actually come in two types called isotopes, according to Sherwood Lollar.
“When microbes degrade contaminants, they prefer the lighter isotope carbon 12 over the heavier isotope carbon 13. The resulting change in the ratio of these isotopes in the contaminant itself is a dramatic and definitive indicator that the biodegradation is successfully taking place,” she said.
Beginning in the 1990s, U of T''s Stable Isotope Laboratory has been an international pioneer in discovering how different carbon isotopes can be used to identify whether or not biodegradation is taking place.
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Over the past decade, as the new technique has become more widespread, centres for research and education, and even private companies, have blossomed worldwide.
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“It is particularly gratifying to be able to take a technique out of the lab and to put it into the hands of the people working on this issue every day around the world,” she added.
Source-ANI
PRI/SK