‘Mercury bomb’ threatens millions as Arctic temperatures rise, study warns


'Mercury bomb' threatens millions as Arctic temperatures rise
A 2022 drone image of the Yukon River and its floodplain downstream from Beaver, Alaska, shows accumulations of sediments, which harbor the toxic metal mercury. Credit: Michael P. Lamb.

The Yukon River flows west across Alaska toward the Bering Sea, eroding Arctic permafrost along its banks and transporting sediment downstream. Within that sediment lurks a toxic stowaway: mercury.

As the Arctic warms with climate change, heating up to four times faster than the global average, mercury sequestered in the permafrost for millennia is being eroded by rivers and released into the environment.

In a study published in Environmental Research Letters today, researchers at the USC Dornsife College of Letters, Arts and Sciences introduce a more accurate method to measure the amount of mercury released from permafrost by the river and estimate the total mercury awaiting release.

The toxic metal poses an environmental and to the 5 million people living in the Arctic zone, more than 3 million of whom live in areas where permafrost is expected to vanish altogether by 2050.

“There could be this giant mercury bomb in the Arctic waiting to explode,” says study co-author Josh West, professor of Earth sciences and environmental studies at USC Dornsife. Mercury moves from air to ground to water

The planet’s natural atmospheric circulation tends to move pollutants toward , which results in mercury accumulation in the Arctic, explains West. “Because of the way it behaves chemically, a lot of mercury pollution ends up in the Arctic. Permafrost has accumulated so much mercury that it could dwarf the amount in the oceans, soils, atmosphere and biosphere combined,” he said.






Credit: University of Southern California

In the Arctic, plants absorb mercury, then die and become part of the soil, which eventually freezes into permafrost. Over thousands of years, mercury concentrations build up in the frozen soil until it thaws, an increasingly common occurrence due to climate change.

The research team, which includes collaborators from Caltech, the Yukon River Inter-Tribal Watershed Council, MIT, and Delft University of Technology in Netherlands, focused their study around two northern villages in Alaska’s Yukon River Basin: Beaver, located about 100 miles north of Fairbanks; and Huslia, 250 miles west of Beaver.

Previous methods of estimating mercury levels, which used from the top three meters (about 10 feet) of permafrost, varied up to fourfold and faced limitations due to the sampling depth.

Seeking greater accuracy, the USC Dornsife-led team analyzed mercury in sediments in riverbanks and sandbars, tapping into deeper soil layers. “The river can quickly mobilize large amounts of containing mercury,” said Isabel Smith, a doctoral candidate at USC Dornsife and the study’s corresponding author.

The researchers found that in sediments were consistent with the higher estimates from previous studies, confirming that sediment samples provide a reliable measure of mercury content and offer deeper insight into the permafrost’s hidden dangers.

Additionally, the team used remote sensing data from satellites to monitor how fast the Yukon River is changing course, which naturally alters over time. These changes in the river’s path are significant because they affect how much mercury-laden sediments are eroded from riverbanks and deposited along sandbars. Understanding these dynamic shifts is crucial, as it helps researchers predict the movement of mercury.

Interestingly, sediments with finer grains contained more mercury than those with coarse grains, suggesting specific soil types that may pose greater risks.

“Taking into account all of these factors should give us a more accurate estimate of the total mercury that could be released as permafrost continues to melt over the next few decades,” Smith said.

How much havoc could mercury wreak?

While the environmental mercury released from melting permafrost doesn’t pose an acute toxic threat today, its effects build over time. Exposure increases as the metal accumulates in the , especially through fish and game that humans consume.

West notes that risk of contamination through drinking water is minimal. “We’re not facing a situation like Flint, Michigan,” he says. “Most human exposure to mercury comes through diet.”

The researchers also emphasize that even though the river erodes banks and mobilizes mercury-laden sediments, it also redeposits those sediments on sand bars and on beaches along the banks.

“There’s another layer of complexity here,” West says. “The rivers are reburying a considerable amount of the mercury. To really get a handle on how much of a threat the mercury poses, we have to understand both the erosion and reburial processes.”

Still, the long-term effects could be devastating, particularly for Arctic communities dependent on hunting and fishing.

“Decades of exposure, especially with increasing levels as more mercury is released, could take a huge toll on the environment and the health of those living in these areas,” Smith said.

The researchers say they hope the tools they’ve developed will enable a more precise assessment of the “ bomb,” in hopes it might be diffused.

More information:
M Isabel Smith et al, Mercury stocks in discontinuous permafrost and their mobilization by river migration in the Yukon River Basin, Environmental Research Letters (2024). DOI: 10.1088/1748-9326/ad536e

Citation:
‘Mercury bomb’ threatens millions as Arctic temperatures rise, study warns (2024, August 15)
retrieved 15 August 2024
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