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Hexavalent chromium is widespread in North Carolina wells but not linked to coal ash -- SciellaglAi1yf 4 <br /> 4 <br /> "This doesn't mean it poses less of a threat,"Vengosh stressed. "If anything, because the <br /> contamination stems from water-rock interactions that are common across the Piedmont region, people <br /> in a much larger geographic area may be at risk. This is not limited only to wells near coal ash ponds. <br /> "The bottom line is that we need to protect the health of North Carolinians from the naturally occurring <br /> threat of hexavalent chromium, while also protecting them from harmful contaminants such as arsenic <br /> and selenium, which our previous research has shown do derive from leaking coal ash ponds," <br /> Vengosh said. "The impact of leaking coal ash ponds on water resources is still a major environmental <br /> issue." <br /> To conduct the new study, the researchers collected groundwater samples from 376 wells located both <br /> close to and far from coal ash ponds across the Piedmont region of central North Carolina. Using <br /> forensic geochemical tracers, they analyzed each sample for a wide range of inorganic chemicals, <br /> including hexavalent chromium. <br /> The tracers, which were developed by Vengosh and his team, allowed the scientists to identify the <br /> geochemical fingerprints of contaminants in the groundwater and trace each contaminant back to its <br /> source. <br /> "Our analysis showed that groundwater samples with high levels of hexavalent chromium have very <br /> different geochemical fingerprints than what we see in groundwater contaminated from leaking coal ash <br /> ponds,"Vengosh said. <br /> "This, combined with the wide geographic distribution of samples containing elevated hexavalent <br /> chromium-- regardless of proximity to a coal ash pond -- points to the natural leaching of chromium <br /> from aquifer rocks in certain Piedmont geological formations," he said. <br /> Piedmont formations with volcanic rocks are common across the southeastern United States and other <br /> areas worldwide, Vengosh noted, so millions of people in regions outside North Carolina with similar <br /> aquifers may be exposed to hexavalent chromium without knowing it. <br /> The Duke team published its findings October 26 in the peer-reviewed journal Environmental Science <br /> and Technology Letters. <br /> In 2015, water-quality officials in North Carolina issued temporary "do not drink" recommendations to <br /> residents living near coal-burning plants after tests detected potentially harmful levels of hexavalent <br /> chromium in their well water samples. Because elevated levels of chromium typically occur in coal ash, <br /> many people assumed the contamination was linked to the coal ash ponds. <br /> Vengosh's team's study is the first to show otherwise. <br /> The current drinking water standard for chromium in the United States is 100 parts per billion. This is <br /> based on an assumption that most chromium contained in drinking water is composed of a less toxic <br /> form known as trivalent chromium. Only California has set a statewide standard of 10 parts per billion <br /> for the much more toxic hexavalent form. <br /> Vengosh hopes his study's findings will lead more states to establish hexavalent chromium standards of <br /> their own. "One of the most striking outcomes of this study is that it shows the concentration of <br /> hexavalent chromium in groundwater is almost identical to the concentration of total dissolved <br /> https://www.sciencedaily.com/releases/2016/10/161026111400.htm 12/16/2016 <br />