From The Guardian by Dharna Noor
Drastic shift driven by frequent wildfires, pushing surface air temperatures to second-warmest on record since 1900
The Arctic tundra is undergoing a dramatic transformation, driven by frequent wildfires that are turning it into a net source of carbon dioxide emissions after millennia of acting as a carbon sink, the US National Oceanic and Atmospheric Administration (Noaa) said on Tuesday.
This drastic shift is detailed in Noaa’s 2024 Arctic Report Card, which revealed that annual surface air temperatures in the Arctic this year were the second-warmest on record since 1900.
“Our observations now show that the Arctic tundra, which is experiencing warming and increased wildfire, is now emitting more carbon than it stores, which will worsen climate change impacts,” said Rick Spinrad, a Noaa administrator.
NOAA Arctic Report Card: Update for 2024 - Tracking recent environmental changes, with 12 essays prepared by an international team of 97 researchers from 11 different countries and an independent peer review organized by the Arctic Monitoring and Assessment Programme of the Arctic Council.
In the ocean :
In September 2024, the extent of Arctic sea ice, which has a profound influence on the polar environment, was the sixth-lowest in the 45-year satellite record.
All 18 of the lowest September minimum ice extents have occurred in the last 18 years.
Arctic Ocean regions that were ice-free in August have been warming at a rate of 0.5 degrees F (0.3 degrees C) per decade since 1982.
In most of the shallow seas that ring the Arctic Ocean, August mean sea surface temperatures were 3.6–7.2 degrees F (2–4 degrees C) warmer than 1991-2020 averages, while the Chukchi Sea were 1.8–7.2 degrees F (1–4 degrees C) cooler than average.
Plankton blooms — the base of the marine food chain — continue to increase in all Arctic regions, except for the Pacific Arctic, throughout the observational record of 2003–2024. However, in 2024, lower-than-average values were dominant across much of the Arctic.
Ice seal populations remain healthy in the Pacific Arctic, though their diets are shifting from Arctic cod to saffron cod with warming waters.
All 18 of the lowest September minimum ice extents have occurred in the last 18 years.
Arctic Ocean regions that were ice-free in August have been warming at a rate of 0.5 degrees F (0.3 degrees C) per decade since 1982.
In most of the shallow seas that ring the Arctic Ocean, August mean sea surface temperatures were 3.6–7.2 degrees F (2–4 degrees C) warmer than 1991-2020 averages, while the Chukchi Sea were 1.8–7.2 degrees F (1–4 degrees C) cooler than average.
Plankton blooms — the base of the marine food chain — continue to increase in all Arctic regions, except for the Pacific Arctic, throughout the observational record of 2003–2024. However, in 2024, lower-than-average values were dominant across much of the Arctic.
Ice seal populations remain healthy in the Pacific Arctic, though their diets are shifting from Arctic cod to saffron cod with warming waters.
The report, led by scientists from the Woodwell Climate Research Center in Falmouth, Massachusetts, found that the Arctic is warming faster than the global average for the 11th year in a row.
Currently, it is warming at up to four times the global rate, the authors found.
Climate warming has dual effects on the Arctic.
While it stimulates plant productivity and growth, which remove carbon dioxide from the atmosphere, it also leads to increased surface air temperatures that cause permafrost to thaw.
When permafrost thaws, carbon trapped in the frozen soil is decomposed by microbes and released into the atmosphere as carbon dioxide and methane, two potent greenhouse gases.
“We need accurate, holistic and comprehensive knowledge of how climate changes will affect the amount of carbon the Arctic is taking up and storing, and how much it’s releasing back into the atmosphere, in order to effectively address this crisis,” said Dr Sue Natali, a scientist at the Woodwell Center who contributed to the research.
“This report represents a critical step toward quantifying these emissions at scale.”
Human-caused climate change is also intensifying high-latitude wildfires, which have increased in burned area, intensity and associated carbon emissions.
Wildfires not only combust vegetation and soil organic matter, releasing carbon into the atmosphere, but they also strip away insulating soil layers, accelerating long-term permafrost thaw and its associated carbon emissions.
“In recent years, we’ve seen how increasing fire activity from climate change threatens both communities and the carbon stored in permafrost, but now we’re beginning to be able to measure the cumulative impact to the atmosphere, and it’s significant,” said Dr Brendan Rogers, Woodwell Climate scientist and report contributor.
Since 2003, circumpolar wildfire emissions have averaged 207m tons of carbon annually, according to Noaa.
At the same time, Arctic terrestrial ecosystems have remained a consistent source of methane.
“The climate catastrophe we’re seeing in the Arctic is already bringing consequences for communities around the world,” said Brenda Ekwurzel, a climate scientist at the Union of Concerned Scientists.
“The alarming harbinger of a net carbon source being unleashed sooner rather than later doesn’t bode well.
Once reached, many of these thresholds of adverse impacts on ecosystems cannot be reversed.”
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