Thursday, February 13, 2020

Great Lakes waters at risk from buried contaminants and new threats



(NOAA/Aerial Associates Photography, Inc. by Zachary Haslick/flickr)

Nickle Beach, Copper Harbor, Silver Bay. These places, all situated on the shores of the Laurentian Great Lakes, evoke the legacy of mining connected with the region.
While mining operations for metal ores and their refining have all but ceased here, there are renewed concerns over the safety of our Great Lakes source waters. One only has to think back to the 2014 water crisis in Flint, Mich. that exposed more than 100,000 people to elevated lead levels or to more recent headlines over lead contamination in water distributed from Canadian taps.


The Great Lakes basin is home to more than 35 million people distributed across two nations and numerous First Nations. They all rely on this resource for potable water, employment, sustenance and recreational opportunities.
Yet, environmental concerns are a recurring theme, compromising beneficial uses of the lakes and connecting rivers and posing a threat to a combined GDP of US$5.8 trillion across the region.
Canadians have come to expect access to safe, clean and reliable drinking water, as well as access to lakes and rivers for recreational use. However, a legacy of natural resource extraction and industrial use, together with new pressures on freshwater ecosystems, challenge the integrity and sustainable use of these resources.

An A grade, for now

Clearly, past environmental crises like mercury pollution of Lake St. Clair in the 1970s, the St. Clair River’s blob of perchloroethylene (a dry-cleaning solvent) in 1985, the outbreak of gastroenteritis in Walkerton, Ont. in 2000, the contamination of Michigan’s Huron River with PFAS (a family of persistent chemicals) in 2017, and the Flint water crisis provide compelling evidence of the need to control contaminants at their source and avoid another tipping point.

People gather outside Flint, Mich., city hall in January 2016 to protest the governor’s handling of the city’s water crisis. Sean Proctor/The Flint Journal-MLive.com via AP

Most people who call Ontario home live within the watershed of one of our four Great Lakes: Superior, Huron, Erie and Ontario. Over 80 per cent of Ontarians receive their drinking water from the lakes.
Considering the high dependency within the province on the Great Lakes, we are fortunate that the protection of these source waters is a priority of Ontario’s Clean Water Act. The province, as recently as 2011, received an A grade in Canada’s drinking water report card issued by the environmental law non-profit Ecojustice.
Ontario’s Source Water Protection Plan began in 2004 on the heels of the tragedy in Walkerton. A total of 38 local plans are currently in place, covering 95 per cent of Ontario’s population. Each plan identifies and ranks the risk of land-use patterns, such as locations of waste disposal sites, and effluent threats, such as industrial waste and fertilizers, that could lead to microbial, chemical or radiological contamination.
While the province is doing a good job protecting our Great Lakes source waters to ensure the safety of our drinking water, will these programs continue to protect us into the future and can they address vulnerabilities particular to our Great Lakes?

Heightened threat from climate change?

While the remaining industrial activity on the Great Lakes is regulated, the lakes themselves contain reservoirs of legacy contaminants, mostly in their sediments, that are vulnerable to resuspension. Metals, including mercury, PCBs and other persistent organic compounds top the list of concern. Resuspension is becoming more common under climate change with high water levels, declining ice cover and increased frequency and intensity of major storm events.

A crowd of swimmers and boaters gather at the annual (unsanctioned) Jobbie Nooner boating party in Lake St. Clair, Mich., in June 2015. (U.S. Coast Guard/flickr)

In fact, the manifestations of climate change in the region may be placing our drinking water systems at risk from a myriad of threats. These concerns include antibiotic-resistant bacteria, threats from emerging chemicals, increases in discharge from combined sewer overflows and enhanced agricultural runoff of fertilizers and manure, which are implicated in the massive harmful algal blooms that have plagued Lake Erie’s western basin in recent decades.


While Source Water Protection Plans provide sound tools for managing our watersheds, we must remain vigilant and develop better risk-based tools that consider legacy and emerging chemical threats especially as they relate to changes to high Great Lakes water levels and increasing intensity of storms.
For example, a sediment disturbance triggered by high winds or shipping accidents could be addressed in a manner similar to chemical spills, closing water intakes until the threat has subsided.

Investing in our future

And oversight must go beyond source waters: the renewed concerns in Canada over lead contamination of our drinking water have refocused attention on the need to invest in municipal infrastructure to help ensure a safe and secure water supply.
These investments need to consider old threats, such as replacing lead service lines and antiquated plumbing, coupled with new tools to address growing vulnerabilities related to increased storm-induced discharge events, nutrient remobilization and harmful algal blooms being produced under a changing climate.

The adage holds true — an ounce of prevention is worth a pound of cure!



Disclosure statement

Robert Michael Lee McKay receives funding from the Natural Sciences and Engineering Research Council of Canada and from Environment and Climate Change Canada.
Joel Edward Gagnon receives funding from the Natural Sciences and Engineering Research Council of Canada.
Ken G. Drouillard receives funding from Natural Sciences and Engineering Research Council of Canada, Environment and Climate Change Canada, Ontario Ministry of Environment, Conservation and Parks. He is affiliated with the Detroit River Canadian Clean-Up Steering Committee and Monitoring and Research Committee.
John Hartig and Michael Siu do not work for, consult, own shares in or receive funding from any company or organisation that would benefit from this article, and have disclosed no relevant affiliations beyond their academic appointment.

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