Damaged boreal peatlands may triple methane emissions, reshaping climate risk

A new study reveals that, for the first time, areas of Canada's boreal peatlands damaged by oil and gas exploration have failed to recover as scientists and companies predicted and instead have led to a tripling of methane emissions, with global implications. The study, " Increased methane emissions from boreal peatlands following linear disturbances ," appears in Communications Earth & Environment .

Long paths called seismic lines are cut into the landscape to accommodate surveying equipment. Researchers from the Faculty of Environment at the University of Waterloo measured methane gas from plant stems and the soil surface. They discovered that methane emissions in seismic lines were 300% higher in bogs and close to 200% higher in fens, compared with emissions from undisturbed sections of peatland.

Methane is a potent greenhouse gas that traps heat in the atmosphere, and as global warming accelerates, changing conditions in boreal peatlands will increase the rate of climate change and the scale of its devastating effects. The impact is already unprecedented, with the network of seismic lines in Alberta extensive enough to wrap around Earth nine times. Similar damage occurs across boreal regions in the United States, Russia and Scandinavia.

"We all think of CO 2 as the bad guy, but methane is approximately 80 times more potent," said Dr. Percy Korsah, a postdoctoral scholar in the Wetland Soils and Greenhouse Gas Exchange Lab at Waterloo. "That's the danger here because without reparations, the increased methane emissions will continue to get worse."

Moving forward, researchers in the lab and collaborators across Canada are developing and testing restoration techniques on some seismic-line sites. However, the researchers note that while oil and gas companies are required to restore the land surface once construction is complete, seismic lines have never been included in these restoration efforts because the common belief was that they would grow back.

Mean percent cover (%) of the dominant plant functional groups within the flux collars across all three sites. Credit: Communications Earth & Environment (2026). DOI: 10.1038/s43247-026-03273-w

"In this moment, when there is excitement about profits from resource development projects, we need ensure that our decisions fully consider the environmental impacts," said Dr. Maria Strack, a professor and Canada Research Chair in Wetland Climate Solutions. "Greenhouse gas emissions and the costs of restoration could make these projects no longer viable or practical."

Publication details

Percy Korsah et al, Increased methane emissions from boreal peatlands following linear disturbances, Communications Earth & Environment (2026). DOI: 10.1038/s43247-026-03273-w

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Damaged boreal peatlands may triple methane emissions, reshaping climate risk (2026, June 14)

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