For Immediate Release Charmayne Marsh 202/872-4445

DESTROYING POTENTIALLY DEADLY TOXINS IN DRINKING WATER Poisonous Substances Produced By Blue-Green Algae Can Attack Liver

A new, more effective method for destroying potentially deadly toxins called microcystins that can be found in drinking water has been announced by researchers in Scotland. Microcystins are produced by blue-green algae, which can grow in reservoirs, lakes and other bodies of water that are used for municipal drinking water. Blue-green algae, often referred to as pond scum but known scientifically as cyanobacteria, can be found in all areas of the world.

The detoxification method, which uses titanium dioxide and light to destroy the toxins, is described in the Jan. 26 web edition of the journal Environmental Science & Technology, a peer-reviewed publication of the American Chemical Society, the world's largest scientific society. The research article is scheduled to appear in the March 1 print issue of the semi-monthly journal.

When titanium dioxide, a white powder commonly used in sun creams and paints, is added to water and exposed to light, it becomes active and destroys the toxins.

Known specifically as microcystin-LR (cyanobacterial hepatotoxins), the toxins are "very difficult to destroy" with normal water purification methods, according to the article's lead author, Linda Lawton, Ph.D., of the Robert Gordon University in Aberdeen, Scotland. Acute exposure to the toxic microcystins produced by the algae can cause liver damage and is fatal in extreme cases, according to the article. Approximately 50 dialysis patients in Brazil died in 1996 "due to the use of microcystin-contaminated water in their treatment," notes Lawton. Long-term exposure is thought to contribute to liver cancer, the article states.

In the U.S., the risk of humans getting ill or dying from microcystins in drinking water is relatively low, says Wayne Carmichael, Ph.D., a professor of aquatic biology and toxicology at Wright State University in Dayton, Ohio, and a leading expert on the subject of toxic cyanobacteria. However, he adds, "a recent study of municipal water supplies in the U.S. and Canada found a few cases where microcystin levels were higher than guidelines established by the World Health Organization." One part per billion, or one microgram per liter, is the WHO standard.

The detoxification method developed by the Scottish researchers is quicker and more effective than currently used methods, claims Lawton. "Costs are comparable with other methods," she adds, "but if sunlight could be used, it would greatly reduce costs." The laboratory research was done using a xenon UV lamp.

Further testing needs to be done, according to the article, to evaluate the performance of the new method in the field and to confirm that water treated with titanium dioxide is safe to drink.

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(The online version of the research paper cited below was placed on the American Chemical Society's ASAP (As Soon As Publishable) web site on Jan. 26. Journalists desiring full access to papers at the ASAP site must submit their requests in writing to [email protected] in the ACS Office of Â鶹´«Ã½ & Information.)

A nonprofit organization with a membership of nearly 159,000 chemists and chemical engineers, the American Chemical Society publishes scientific journals and databases, convenes major research conferences, and provides educational, science policy and career programs in chemistry. Its main offices are in Washington, D.C., and Columbus, Ohio.