The Unseen Consequences of Road Deicing: How Salt is Impacting Our Waterways

Image of a salt truck on the road deicing it.

As winter envelops many parts of the world, the familiar sight of trucks scattering salt on icy roads becomes a common occurrence. This practice, aimed at ensuring safer driving conditions, uses sodium chloride, a compound similar to table salt, for deicing roadways. While the immediate benefits of this method are clear, its long-term environmental impact, especially on our water systems, is a growing concern.

The Scale of Road Salt Usage

The use of road salt, or sodium chloride, has become an integral part of winter road maintenance in cold climates. According to research from The University of Toledo, approximately 25 million metric tons of this deicing salt are applied annually across various regions. The quantity varies by state but can range from 3 to 18 pounds per square meter, roughly the area of a small kitchen table.

The Dual-Edged Sword of Road Deicing

The primary goal of road deicing is to prevent vehicle accidents during snowy conditions. Indeed, studies show that road deicers can reduce car accidents by over 78%. However, the environmental trade-off of this safety measure is significant, particularly regarding the salinity of freshwater sources.

Rising Salinity in Freshwater Sources

Research titled “Road Salts, Human Safety and the Rising Salinity of Our Fresh Waters” highlights a worrying trend: an increase in the salinity of freshwater bodies due to road salt. This phenomenon leads to the contamination of local drinking water supplies, pushing the salt concentration levels in some local streams to be 20 to 30 times higher than the chronic chloride threshold set by the U.S. Environmental Protection Agency (EPA).

The Ripple Effect on Water Quality

The impact of sodium chloride goes beyond just increasing salinity. It can mobilize harmful chemicals like radon, mercury, and lead, contaminating water supplies. A notable example of this was observed in Flint, Michigan, where excessive road salt use increased chloride levels, resulting in lead contamination from water pipes.

The Inadequacy of Current Safeguards

Current EPA guidelines on salt pollution appear to be insufficient in protecting water supplies. Researchers, including Bill Hintz from The University of Toledo, argue that the impacts of deicing salts can be lethal, even at current threshold levels, and call for a revision of these standards.

Exploring Alternative Solutions to Road Salt

To combat the negative effects of road salt, experts propose several strategies. These include creating covered salt storage facilities to prevent runoff, utilizing anti-icing liquids before storms to reduce salt dependency, and employing more efficient snowplows that conform better to road surfaces. Additionally, there is a call for public awareness and a shift in expectations regarding winter weather management to lessen the ecological footprint.

Balancing Safety and Environmental Health

As we navigate the challenges of maintaining safe roads in winter, it’s crucial to balance human safety with environmental responsibility. Understanding the consequences of road salt on our waterways is the first step toward adopting more sustainable deicing methods. It’s a delicate balance, but one that is essential for the health of our planet and future generations.

If you’re concerned about chemicals in your drinking water, contact Reynolds Water Conditioning today for testing and viable treatment solutions.  

Reynolds Water Conditioning was established in 1931 and is Michigan’s oldest water conditioning treatment company. Still owned and operated by the Reynolds family, we take pride in providing the highest quality products at a cost-effective price. If your tap water lacks the quality you deserve, contact us today at 800-572-9575.

Written by the digital marketing team at Creative Programs & Systems: www.cpsmi.com

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