New approaches needed to gauge safety of nanotech-based pesticides

Oct 04, 2010
These titanium dioxide nanoparticles, seen through a scanning electron microscope, are the type of extraordinarily small particles studied in a program at Oregon State University on the safety of nanotechnology. (Image courtesy of Oregon State University)

Nanotechnology is about to emerge in the world of pesticides and pest control, and a range of new approaches are needed to understand the implications for public health, ensure that this is done safely, maximize the potential benefits and prevent possible risks, researchers say in a new report.

In a study published today in the International Journal of Occupational and Environmental Health, scientists from Oregon State University and the European Union outline six regulatory and educational issues that should be considered whenever are going to be used in .

"If we do it right, it should be possible to design nanoparticles with safety as a primary consideration, so they can help create pesticides that work better or are actually safer," said Stacey Harper, an assistant professor of nanotoxicology at Oregon State University. Harper is a national leader in the safety and environmental impacts of this science that deals with particles so extraordinarily small they can have novel and useful characteristics.

"Unlike some other applications of nanotechnology, which are further along in development, applications for pesticides are in their infancy," Harper said. "There are risks and a lot of uncertainties, however, so we need to understand exactly what's going on, what a particular nanoparticle might do, and work to eliminate use of any that do pose dangers."

A program is already addressing that at OSU, as part of the Oregon and Institute.

The positive aspect of nanotechnology use with pesticides, researchers say, is that it might allow better control and delivery of , less environmental drift, formulations that will most effectively reach the desired pest, and perhaps better protection for agricultural workers.

"If you could use less pesticide and still accomplish the same goal, that's a concept worth pursuing," Harper said.

But researchers need to be equally realistic about the dangers, she said. OSU labs have tested more than 200 nanomaterials, and very few posed any toxic concerns – but a few did. In one biomedical application, where nanoparticles were being studied as a better way to deliver a cancer drug, six out of 40 evoked a toxic response, most of which was linked to a specific surface chemistry that scientists now know to avoid.

"The emergence of nanotechnology in the pesticide industry has already begun, this isn't just theoretical," said David Stone, an assistant professor in the OSU Department of Environmental and Molecular Toxicology. "But pesticides are already one of the most rigorously tested and regulated class of compounds, so we should be able to modify the existing infrastructure."

One important concern, the researchers said, will be for manufacturers to disclose exactly what nanoparticles are involved in their products and what their characteristics are. Another issue is to ensure that compounds are tested in the same way humans would be exposed in the real world.

"You can't use oral ingestion of a pesticide by a laboratory rat and assume that will tell you what happens when a human inhales the same substance," Stone said. "Exposure of the respiratory tract to nanoparticles is one of our key concerns, and we have to test compounds that way."

Future regulations also need to acknowledge the additional level of uncertainty that will exist for nano-based pesticides with inadequate data, the scientists said in their report. Tests should be done using the commercial form of the pesticides, a health surveillance program should be initiated, and other public educational programs developed.

Special assessments may also need to be developed for nanoparticle exposure to sensitive populations, such as infants, the elderly, or fetal exposure. And new methodologies may be required to understand nanoparticle effects, which are different from most traditional chemical tests.

"These measures will require a coordinated effort between governmental, industry, academic and public entities to effectively deal with a revolutionary class of novel pesticides," the researchers concluded in their report.

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Pyle
1 / 5 (1) Oct 04, 2010
I always laugh at concern over the effects of "nanoparticles". Oooooh! Really small things are scary!
"Nanoparticles" have always been around and we should be rejoicing that we are finally able to understand at a more fundamental level what they are doing to us and the environment. Now that we have the technology we should review previously "safe" methods used in the past to this new level of scrutiny. Just because we are making things more precisely doesn't mean they are more dangerous. It just means we have a better handle on what we are doing.

It gets under my hackles that people react in fear to engineered "nanoparticles" when the currently accepted alternatives have always been resulting in really small nasty stuff that we should be equally concerned about.

The coming "Diamond Age" is terrifying, but it's coming so let's embrace it and act rationally.

dtxx
2.6 / 5 (5) Oct 04, 2010
At the nanoscale materials can exhibit entirely new properties, or existing properties can be changed by orders of magnitude. Even above the nanoscale there is cause for concern. For example, wood is combustible but sawdust can explode.
denijane
5 / 5 (1) Oct 05, 2010
"Nanoparticles" have always been around" - yeah? And how "always" is this "always" and in what quantities? Because we're talking not about some random byproduct that you could find in Nature, but about application of nanoparticles on a whole new scale. Like in cosmetics, medicine, agriculture, food, water, computers, or whatever else you might think of. If you just unleash this and watch the results, they might turn out to be much worse than you think. Radioactivity also exist in the Nature, but that doesn't mean it's healthy to stay in a reactor.
With knowledge and power comes also responsibility.