Researchers from McGill University project that as the permafrost continues to degrade, the climate in various regions of the Arctic could potentially change abruptly, in the relatively near future. Their research, which was published today in Nature Climate Change, also suggests that as the permafrost degrades, the severity of wildfires will double from one year to the next and remain at the new and higher rate for regions in the Northwestern Territories and the Yukon.

"We study climate-engineering infrastructure (e.g. roads, ports, buildings, pipelines and mining infrastructure) interactions in a changing climate. Arctic infrastructure is particularly impacted by permafrost degradation and associated soil moisture changes, among other factors" said Laxmi Sushama. Sushama is a Professor in McGill's Department of Civil Engineering and the Trottier Chair in Sustainability in Engineering and Design. "As we started analyzing more closely climate model simulations for the Arctic region, we noticed abrupt changes in soil moisture, as well as abrupt increases in intense rainfalls with a probable increase in lightning and wildfires too."

Discovery of climatic shifts

Prior research in the field has tended to project a gradual degradation of the permafrost, with few direct effects on climate. Typically, researchers will model climate changes by looking backwards and forwards in 20-30 year blocks, making it easier to miss the abrupt changes that are taking place. The McGill researchers analyzed the effects of changes in the permafrost on a completely different level.

"There's not much high-resolution climate modelling done of the Arctic. Our initial climate model experiments at 50km resolution allowed us to extract critical information on climate shifts" says Bernardo Teufel, the first author on the paper, who is currently working on his PhD research at McGill. "We used climate model data spanning the 1970-2100 period to understand probable changes in the Arctic climate and permafrost. What we came away with, was a picture of alarming changes to climate driven by permafrost degradation."

The researchers are currently working on very high resolution simulations of likely effects of climate change on the permafrost and climate-infrastructure interactions. They hope that this will also provide a better understanding of the various climate change feedback processes in the Arctic for others working in the field and for stakeholders and engineers in the North.

To read "Abrupt changes across the Arctic permafrost region endanger northern development," by B. Teufel and L. Sushama in Nature Climate Change

https:/ / doi. org/ 10. 1038/ s41558-019-0614-6

This research was funded by the Natural Sciences and Engineering Research Council of Canada, the Trottier Institute for Sustainability in Engineering and Design and the McGill Sustainability Systems Initiative. The GEM simulations in this study were performed on supercomputers managed by Calcul Québec and Compute Canada.

About McGill University

Founded in Montreal, Quebec, in 1821, McGill is a leading Canadian post-secondary institution. It has two campuses, 11 faculties, 13 professional schools, 300 programs of study and over 40,000 students, including more than 10,200 graduate students. McGill attracts students from over 150 countries around the world, its 12,800 international students making up 31% per cent of the student body. Over half of McGill students claim a first language other than English, including approximately 19% of our students who say French is their mother tongue.



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