Urban stream contamination increasing rapidly due to road salt

December 16, 2014

Average chloride concentrations often exceed toxic levels in many northern United States streams due to the use of salt to deice winter pavement, and the frequency of these occurrences nearly doubled in two decades.

Chloride levels increased substantially in 84 percent of urban streams analyzed, according to a U.S. Geological Survey study that began as early as 1960 at some sites and ended as late as 2011. Levels were highest during the winter, but increased during all seasons over time at the northern sites, including near Milwaukee, Wisconsin; Chicago, Illinois; Denver, Colorado; and other metropolitan areas. The report was published today in the journal Science of the Total Environment.

"Some freshwater organisms are sensitive to chloride, and the high concentrations that we found could negatively affect a significant number of species," said Steve Corsi, USGS scientist and lead author of the study. "If urban development and use continue to increase, chloride concentrations and associated toxicity are also likely to increase."

The scientists analyzed water-quality data from 30 monitoring sites on 19 streams near cities in Wisconsin, Illinois, Colorado, Michigan, Ohio, Pennsylvania, Maryland, Texas and the District of Columbia. Key findings include:

  • Twenty-nine percent of the sites exceeded the U.S. Environmental Protection Agency's chronic water-quality criteria (230 milligrams per liter) by an average of more than 100 days per year from 2006 through 2011, which was almost double the amount of days from 1990 through 1994. This increase occurred at sites such as the Menomonee and Kinnickinnic Rivers near Milwaukee and Poplar Creek near Chicago.
  • The lowest chloride concentrations were in watersheds that had little urban land use or cities without much snowfall, such as Dallas, Texas.
  • In 16 of the streams, winter chloride concentrations increased over the study period.
  • In 13 of the streams, chloride concentrations increased over the study period during non-deicing periods such as summer. This finding suggests that chloride infiltrates the groundwater system during the winter and is slowly released to the streams throughout the year.
  • Chloride levels increased more rapidly than development of urban land near the study sites.
  • The rapid chloride increases were likely caused by increased application rates, increased baseline conditions (the concentrations during summer low-flow periods) and greater snowfall in the Midwest during the latter part of the study.

"Deicing operations help to provide safe winter transportation conditions, which is very important," Corsi said. "Findings from this study emphasize the need to consider deicer management options that minimize the use of road salt while still maintaining safe conditions."

Road deicing by cities, counties and state agencies accounts for a significant portion of salt applications, but salt is also used by many public and private organizations and individuals to deice parking lots, walkways and driveways. All of these sources are likely to contribute to these increasing chloride trends.

Other major sources of salt to U.S. waters include wastewater treatment, septic systems, farming operations and natural geologic deposits. However, the new study found deicing activity to be the dominant source in urban areas of the northern U.S.

Explore further: Many urban streams harmful to aquatic life following winter pavement deicing

Related Stories

Recommended for you

Fish to benefit if large dams adopt new operating approach

December 18, 2017

Thousands of dams built along U.S. rivers and streams over the last century now provide electricity for homes, store water for agriculture and support recreation for people. But they also have significant downstream impacts: ...

Heavy oils and petroleum coke raising vanadium emissions

December 15, 2017

Human emissions of the potentially harmful trace metal vanadium into Earth's atmosphere have spiked sharply since the start of the 21st century due in large part to industry's growing use of heavy oils, tar sands, bitumen ...

Climate change made Harvey rainfall 15 percent more intense

December 14, 2017

A team of scientists from World Weather Attribution, including researchers from Rice University and other institutions in the United States and Europe, have found that human-caused climate change made the record rainfall ...

0 comments

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.