Nanoparticles in Sunscreen Damage Microbes
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Marron [2011-05-20]
Nanoparticles in Sunscreen Damage Microbes
Nanoparticles in sunscreens, cosmetics and hundreds of other consumer products may pose risks to the environment by damaging beneficial microbes, scientists reported Tuesday.
A study by University of Toledo researchers discovered that nano-titanium dioxide used in personal care products reduced biological roles of bacteria after less than an hour of exposure. The findings suggest that these particles, which end up at municipal sewage treatment plants after being washed off in showers, could eliminate microbes that play vital roles in ecosystems and help treat wastewater.
Nano-titanium dioxide is used in many sunscreens and other personal care products to help block ultraviolet light that can cause skin cancer.
But this new report and other scientific research suggest such characteristics may come at an ecological price.
In the paper presented Tuesday at the annual conference of the American Chemical Society in Salt Lake City, researchers Cyndee Gruden and Olga Mileyeva-Biebesheimer added varying amounts of nanoparticles to water containing bacteria. The bacteria were grown in a lab and stained with a green fluorescent.
The scientists saw significant damage to the bacteria s cell walls after adding 10 to 100 milligrams per liter of the nanosubstance. The cell membranes changed from green fluorescent to a faint red glow, which indicates damage.
How fast the cell damage occurred was surprising, said Gruden. Although the researchers did not measure survival rates, the cell wall damage indicates the bacteria lost functionality, Gruden said.
Bacteria do not necessarily have to die to lose their biological functions, added Gruden.
Though most of these particles stick to solids and might be filtered out at wastewater plants, a small percentage probably escapes treatment, and those particles would be discharged into lakes, streams, oceans and other waterways, said Gruden. If the beneficial microbes were damaged, environmental and human health could be harmed.
Microbes remove ammonia from wastewater treatment systems, clean up toxic waste and reduce phosphorus in lakes, all benefits that could be hindered or lost with the presence of nanoparticles.
Another study to be presented at the conference on Thursday shows beneficial soil bacteria cannot tolerate silver, copper oxide and zinc oxide nanoparticles, also used in sunscreens and other products. Damage to the bacteria, which clean up organic pollutants, occurred at very low levels of exposure, equivalent to two drops in an Olympic-size swimming pool, according to the study conducted by scientists at Utah State University and University of Utah.
Researchers warned these particles could be toxic to aquatic life. If you look up the Environmental Protection Agency s risk level of copper to fish and other aquatic organisms, you are at that point of toxicity," said Utah State researcher Anne J. Anderson.
The question now, said Gruden, is whether the microbes will behave the same in the more complex environment of wastewater.
This is a preliminary study and right now there is nothing that suggests what these particles may do in the environment, said Andrew Maynard, chief science advisor for the Project on Emerging Nanotechnologies. But this is how science works, we first look at the impact of these particles in a pristine environment and then test them out in the real world.
The lab findings do support a trend of uncertainty growing around nanoparticles in consumer products.
We have a real range of products that strike me as really concerning because of the gap between what we know and what I would like to know, said Sonya Lunder, senior analyst at the Environmental Working Group.
Nanotechnology has been hailed for its benefits because of the potential ability to create drugs that could cure cancer and radiation poisoning, make miniature pollutant filters resulting in healthier air and even produce better tasting food. Excitement over these benefits has led to corporations heavily investing in the technology for their products. However, the same properties that allow nanotechnology to be valuable give it the potential to cause unforeseen consequences for ecological and human health.
Prior research has shown mice injected with carbon nanotubes developed biological damage similar to asbestos inhalation. A 2005 study in Environmental Science and Technology showed that zinc oxide particles were toxic to human lung cells.
Manipulated to 1/100,000 the width of a human hair, nanoparticles can act differently when operating at the quantum level.
When you make something at the nanoscale it has the ability to get to places that larger material is incapable of getting to, such as cells, and creates greater surface area so you are increasing the ability to cause harm, Maynard said.
In addition, said Maynard, some materials create new chemical properties.
Adding to the confusion over nanotechnology is the lack of scientific data on many of the particles now found in products.
Each nanoparticle its own characteristics and we need to start getting a handle on these things and how they might interact with the environment, Gruden said.
Nevertheless, Maynard said studies finding potential hazards with nanoparticles are not likely to keep them out of products.
Rather than slowing down the use of these materials, really the push will be to increase the level of knowledge to handle them safely, he said.