'Emerging contaminants of concern' detected throughout Narragansett Bay watershed

A group of hazardous chemical compounds that are common in industrial processes and personal care products but which are not typically monitored by the Environmental Protection Agency have been detected throughout the Narragansett Bay watershed, according to a URI researcher.

Rainer Lohmann, associate professor of chemical oceanography, and graduate student Victoria Sacks, with the help of 40 volunteers, tested for the presence of the chemicals in 27 locations. The compounds were found at every site.

“Being exposed to these compounds is the hidden cost of our lifestyle,” said Lohmann. “It's frustrating that as we ban the use of some chemical compounds, industry is adding new ones that we don't know are any better.”

Lohmann said the good news is that the chemicals were detected at extremely low levels.

“By themselves, none of these results makes me think that we shouldn't be swimming in the bay or eating fish caught there,” he said. “But we only tested for three compounds that might be of concern, and we know there are hundreds more out there. The totality of all those compounds together is what may be worrisome.”

The three compounds the researchers measured, which scientists refer to as “emerging contaminants of concern,” are: triclosans, antibacterial agents found in many personal care products and which have been identified as posing risks to humans and the environment; alkylphenols, widely used as detergents and known to disrupt the reproductive system; and PBDEs, industrial products used as flame retardants on a wide variety of consumer products. PBDEs have been banned because they cause long-term adverse effects in humans and wildlife.

PBDEs, methyltriclosan and triclosan were found in highest concentrations in the Blackstone River, Woonasquatucket River and in upper Narragansett Bay, while some detergents were detected at similar levels at nearly every site.

“Many of the trends in society – from early puberty changes to some diseases – may be caused by chemical exposures,” said Lohmann. “They trigger hormones and disrupt the normal functioning of the body. We have no resistance against them.”

The chemical compounds were detected using polyethelene passive samplers, thin pieces of plastic that absorb chemicals that are dissolved in water. The volunteers placed the samplers in various rivers and coves in the Narragansett Bay watershed in the fall of 2009 and retrieved them two to three weeks later. The chemical compounds were then extracted from the samplers in a lab at the URI Graduate School of Oceanography.

“We couldn't have done this work without the volunteers,” Lohmann said. “They have helped us find potential sources for some of these chemicals.”

“Unfortunately, no matter how you choose your lifestyle, you can't avoid exposure to these compounds,” he added. “You just can't escape.”

Media Contact

Todd McLeish EurekAlert!

More Information:

http://www.uri.edu

All latest news from the category: Life Sciences and Chemistry

Articles and reports from the Life Sciences and chemistry area deal with applied and basic research into modern biology, chemistry and human medicine.

Valuable information can be found on a range of life sciences fields including bacteriology, biochemistry, bionics, bioinformatics, biophysics, biotechnology, genetics, geobotany, human biology, marine biology, microbiology, molecular biology, cellular biology, zoology, bioinorganic chemistry, microchemistry and environmental chemistry.

Back to home

Comments (0)

Write a comment

Newest articles

Future AR/VR controllers could be the palm of your hand

Carnegie Mellon University’s EgoTouch creates simple interfaces for virtual and augmented reality. The new generation of augmented and virtual reality controllers may not just fit in the palm of your…

‘Game changer’ in lithium extraction

Rice researchers develop novel electrochemical reactor. A team of Rice University researchers led by Lisa Biswal and Haotian Wang has developed an innovative electrochemical reactor to extract lithium from natural…

The blue-green sustainable proteins of seaweed

… may soon be on your plate. The protein in sea lettuce, a type of seaweed, is a promising complement to both meat and other current alternative protein sources. Seaweed…