Glacier-fed rivers in Nunavut are sucking carbon dioxide out of the air: study - Action News
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Glacier-fed rivers in Nunavut are sucking carbon dioxide out of the air: study

Biologists from the University of Alberta studied the Lake Hazen watershed in Nunavut and found rivers with glacial meltwater are carbon sinks.

Rivers taking the greenhouse gas out of atmosphere, but costs to melting glaciers unknown, author says

The delta of the Snowgoose River in Quttinirpaaq National Park. Biologists studying rivers in the park were surprised to find they are sinks of atmospheric carbon. (Submitted by Kyra St. Pierre)

New research suggestsglacier-fed rivers in Canada's North are sucking up and storing a lot of carbon dioxide from the air.

Biologists from the University of Alberta made the discovery after studying the Lake Hazen watershed in QuttinirpaaqNational Park on Ellesmere Island in Nunavut. They detailed their findings in a study published in Proceedings of the National Academy of Sciences.

The studysays rivers containing almost purely glacial meltwater, along with lakes downstream, are important sinks of atmospheric carbon.

"We were initially quite surprised because everything that we know from more temperate rivers is that they're almost overwhelmingly sources of carbon dioxide to the atmosphere, and what we were observing [in Nunavut] was the complete opposite," said study author Kyra St. Pierre.

Kyra St. Pierre samples the Blister River. (Jessice Serbu)

The more meltwater in the rivers, she added, the more carbon dioxide they consume.

During high melt years, like this year, researchers saw rates of carbon dioxide consumption per square metre four times what the Amazon rainforest consumes. While in years where there was little meltwater, consumption was about half that of the Amazon.

St. Pierre explained glacier-fed rivers consume carbon dioxide through a process called chemical weathering. This is a chemical reaction that occurs when sediment, rocks and soil come into contact with water and gases like carbon dioxide.

Glacier-fed rivers differ from other rivers, St. Pierre said, as they have fewer animals, plants, algae and bacteria. This results inless photosynthesis and respiration. There is also more finely ground sediment in glacial environments.

The meltwater channel on top of the Gilman Glacier in Quttinirpaaq National Park. (Kyra St. Pierre)

While these rivers help reduce the amount of the greenhouse gases in the atmosphere, St.Pierre noted melting glaciers comeat a cost.

She pointed to the Slims River in Yukon as an example. It had been the main source of water into Kluane Lake for centuries, until it disappeared due to a retreating glacier.

"I think it's really important to highlight thatthis is fundamentally a short-term sink," she said. "So if we don't do anything to ... curb climate warming, we're potentially losing these glaciers without knowing the value that we really have within them."

She added that many water sources in Western and Northern Canada originate from glaciers.

The Henrietta Nesmith Glacier. (Vincent St. Louis)

"As the climate continues to warm, we're potentially losing some important aspect of our water quality and our quality of life further downstream."

Researchers are now conducting similar studies in the Canadian Rockies, where there is a longer melt season. St. Pierre said they are looking to see if the same chemical processes occur in glacier-fed waters further south.