The DNR conducted field samples in both urban and rural areas that were used to complete the study. (Credit: Minnesota Department of Natural Resources. University of Minnesota College of Science and Engineering)
The DNR conducted field samples in both urban and rural areas that were used to complete the study. (Credit: Minnesota Department of Natural Resources. University of Minnesota College of Science and Engineering)

Minneapolis, MN (October 21, 2024) - A new study by researchers at the University of Minnesota Twin Cities in collaboration with the Minnesota Department of Natural Resources (DNR) found that specific insecticides, called neonicotinoids, were found at high concentrations in some ground and surface water sources that could affect drinking water.

Individuals relying on shallow groundwater or natural springs for drinking water have a higher risk of contamination from these insecticides compared to those getting their drinking water from deep groundwater wells. They also found that these insecticides could affect organisms in the streams that are fed by those springs.

The research was recently published in Science of the Total Environment.

With the increased use of insecticides for agriculture and insect control in the past few decades, research has shown that consistent application of them can lead to contamination in water. This can have a negative impact on human health and pollinator insect species, such as bees and butterflies.

A large portion of Minnesota's drinking water comes from groundwater. Looking at the levels of these specific insecticides can help water treatment plants determine what to monitor and filter.

In this study, researchers looked at the levels of neonicotinoids in surface and groundwater across Minnesota, identifying factors that may affect the extent of contamination. The DNR was able to collect water samples from 15 springs and 75 unique wells from 13 counties in Minnesota over four years (2019–2022) allowing comparisons between urban and rural areas.

The researchers not only collected an extensive amount of geographic locations, they also looked at the chemical levels at various depths. In testing the water samples, they found that natural springs are very susceptible to contamination from neonicotinoid insecticides.

"Oftentimes people think a natural spring has water that is safe to drink," said Bill Arnold, Distinguished McKnight University Professor & Joseph T. and Rose S. Ling Professor in the University of Minnesota's Department of Civil, Environmental, and Geo- Engineering. "That's not necessarily true, it depends on how deep that water is sourced."

There are multiple ways these types of chemicals can get into the environment. In addition to direct application, stormwater runoff and snow melt can contribute to these chemicals in ground and surface water. The researchers were able to map different classes of the insecticides across the state.

"We use so many of these chemicals in Minnesota. Basically, every corn and soybean seed is treated before planting," Arnold said. "Many of these chemicals can be purchased at a local hardware store that can be used for spraying fruit trees, flea and tick control for your pets, and eliminating bedbugs."

While the researchers knew they would find traces of the insecticide in water, some of their study results were unexpected.

"We were surprised by the high levels of the chemical detected in the natural springs and in some cases the chemicals were observed at much deeper levels in wells than we expected going into this project," Arnold added.

As a follow-up to the study, researchers are collaborating with county and state agencies to include these chemicals on water treatment monitoring lists and want to continue to educate watershed districts about these insecticides. The researchers will also work with the University of Minnesota's St. Anthony Falls Laboratory to improve stormwater treatment methods for urban environments, including the use of biofiltration to remove pollutants.

More information: Grant J. Goedjen et al, Occurrence and distribution of neonicotinoids and fiproles within groundwater in Minnesota: Effects of lithology, land use and geography, Science of The Total Environment (2024). DOI: 10.1016/j.scitotenv.2024.176411

Journal information:Science of the Total Environment