Scientists at Indiana University found high levels of a previously unsuspected pollutant in homes, in an electronic waste recycling facility and in the natural environment. People are likely to be exposed to this pollutant by breathing contaminated dust or through skin contact.
The chemical, tri(2,4-di-t-butylphenyl) phosphate or TDTBPP, is part of a family of organophosphates that are known to be toxic. However, little information is known about the toxicity of TDTBPP or how it gets into our environment. The chemical may be used as a flame retardant or as a plasticiser in consumer products. It may also be formed as other chemicals degrade. It may even be an impurity in a structurally related compound.
"We found surprisingly high levels of TDTBPP everywhere we looked," says Marta Venier, a scientist at the IU School of Public and Environmental Affairs and the first author of the study. "The fact that this potentially toxic chemical is so abundant, but was previously unknown, is another example of the ineffective management of chemicals in the United States."
Many common commercial chemicals, including TDTBPP, are not subject to regulatory scrutiny under the US Toxic Substances Control Act unless they are used for new purposes, and much of the information about their commercial use is private. Therefore, it is difficult for environmental chemists to track how these pollutants enter the environment and what kind of effects they might cause once they do. Many chemicals go undetected until scientists perform a general environmental scan, like this study conducted by scientists at IU.
The researchers studied dust samples from an e-waste dismantling facility in Ontario, Canada. Chemicals similar to TDTBPP are often used in the production of plastics, wires, printed circuit boards and electronic equipment, making e-waste recycling facilities an important place to search for previously undetected pollutants.
The researchers also studied dust from 20 residential homes in Ontario and analyzed outdoor samples from southwestern Lake Michigan to measure the amounts of TDTBPP in ambient air, water and sediment. They found that levels of TDTBPP were particularly high in house dust.
"Our research is the first step," Venier says. "Now that we know that TDTBPP is prevalent, especially in homes, scientists can flag it for further study and focus on understanding the effects of TDTBPP on people."