Permafrost thaw slumps in the western Canadian Arctic are releasing record amounts of mercury into waterways, according to new research by University of Alberta ecologists.
Mercury is a naturally occuring contaminant that is toxic to humans and other animals in large quantities as it accumulates in organisms and food webs. Sediments in permafrost are estimated to store more mercury than Earth’s oceans, atmosphere, and soil combined. And, as climate change causes permafrost to thaw, the mercury stored in permafrost becomes available for release into the surrounding environment.
“Concentrations of mercury were elevated for at least 2.8 kilometres downstream of thaw slumps,” says Kyra St. Pierre, Vanier Scholar PhD student, who co-led the study with fellow graduate students Scott Zolkos and Sarah Shakil in the Department of Biological Sciences. “This suggests that some mercury from thaw slumps may be transported for many kilometres through downstream ecosystems, and into larger waterways.”
The issue is exacerbated by rising temperatures and increasing precipitation in the Canadian Arctic due to climate change.
“Climate change is inducing widespread permafrost thaw,” explained St. Pierre, who conducted the study under the supervision of Assistant Professor Suzanne Tank, and Professor Vincent St. Louis . “In regions where this results in thaw slumping, this may release a substantial amount of mercury into freshwater ecosystems across the Arctic.”
However, because the mercury is locked within sediments, the scientists are unsure as to whether this mercury could be consumed by organisms in the area and whether this mercury poses any threat to the security of northern food webs.
These results highlight the need for further research on mercury cycling in regions experiencing active permafrost thaw, as well as studies examining if and how this mercury might enter food webs in surrounding ecosystems.
The research was conducted in partnership between the University of Alberta and the Government of the Northwest Territories in response to Northwest Territories’ community interests in the downstream effects of permafrost thaw.
The paper, “Unprecedented increases in total and methyl mercury concentrations downstream of retrogressive thaw slumps in the western Canadian Arctic,” was published in Environmental Science & Technology (doi: 10.1021/acs.est.8b05348).