Permafrost is a mix of soil, rock or sediment that has been frozen for at least two years which is mostly found in the uppermost areas where temperatures are rising more quickly than the rest of the world.
When it thaws because of global warming, it releases large quantities of carbon dioxide and methane into the atmosphere, causing temperatures to rise and creating a perpetual cycle where more permafrost melts.
It has “conventionally been assumed to have minimal emissions in permafrost regions”, according to a fresh study published in the Atmospheric Chemistry and Physics journal.
However the research team behind the study, led by Harvard University scientists, has found that nitrous oxide emissions are 12 times higher than previously thought and therefore more of a threat.
The group used a small plane with a probe on its nose to measure greenhouse gases over 120sqm of thawing permafrost in the North Slope of Alaska.
They found that nitrous oxide emissions reached what was previously thought to be the expected yearly limit within just one month in August 2013.
Nitrous oxide also poses a second threat because “up in the stratosphere, sunlight and oxygen team up to convert the gas into nitrogen oxides, which eat at the ozone”, Harvard University said in a statement.
Jordan Wilkerson, one of the authors of the study, said: “Much smaller increases in nitrous oxide would entail the same kind of climate change that a large plume of CO2 would cause.
“This is widespread, pretty high emissions.”
He called for further research on the greenhouse gases, especially nitrous oxide, adding: “This needs to be taken more seriously than it is right now.”
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