The warming Arctic permafrost may be releasing more nitrous oxide, a potent greenhouse gas, than previously thought
By Caitlin McDermott-Murphy Harvard Correspondent
DateJune 6, 2019
About a quarter of the Northern Hemisphere is covered in permafrost. Now, it turns out these permanently frozen beds of soil, rock, and sediment are actually not so permanent: They’re thawing at an increasing rate.
Human-induced climate change is warming these lands, melting the ice and loosening the soil, and that can cause severe damage. Forests are falling; roads are collapsing; and, in an ironic twist, the warmer soil is releasing even more greenhouse gases, which could further exacerbate the effects of climate change.
Shortly after scientists first noticed signs of thaw in the early 1970s, they rushed to monitor emissions of the two most influential greenhouse gases — carbon dioxide and methane. But until recently, the threat of the third-most-prevalent gas, nitrous oxide (N2O) — known in dentistry as laughing gas — has largely been ignored.
In a 2010 paper, the Environmental Protection Agency (EPA) rated permafrost nitrous oxide emissions as “negligible,” and few studies counter this claim.
But a paper published this month in the journal Atmospheric Chemistry and Physics shows that nitrous oxide emissions from thawing Alaskan permafrost are about 12 times higher than previously assumed. Since N2O traps heat nearly 300 times more efficiently than carbon dioxide does, this revelation could mean that the Arctic — and the global climate — are in more danger than we thought. “Much smaller increases in nitrous oxide would entail the same kind of climate change that a large plume of CO2would cause,” said Wilkerson, the paper’s first author and a Ph.D. student at the Graduate School of Arts and Sciences based in the lab of James G. Anderson, the Philip S. Weld Professor of Atmospheric Chemistry at Harvard.
In August 2013, before Wilkerson joined the Anderson lab, members of the lab and scientists from the National Oceanic and Atmospheric Administration (NOAA) traveled to the North Slope region of Alaska, bringing with them a specially outfitted small plane that collected data on four greenhouse gases — carbon dioxide, methane, water vapor, and nitrous oxide — that are naturally released from soil and water as part of microbial processes. Flying low, the airborne laboratory collected the gases over nearly 200 square miles, an area about four times the size of Boston proper. Using the eddy covariance technique, which measures vertical wind speed and the concentration of trace gases in the atmosphere, the team could determine whether more gases rose or fell.
In this case, what goes up does not always come down: Greenhouse gases rise into the atmosphere, where they trap heat and warm the planet. And nitrous oxide poses an even greater threat: In the stratosphere, sunlight and oxygen team up to convert the gas into reactive nitrogen oxides that eat away at the ozone layer, which absorbs most of the sun’s harmful ultraviolet radiation. According to the EPA, atmospheric levels of the gas are rising overall, and the molecules can stay in the atmosphere for up to 114 years.
When Wilkerson joined Anderson’s lab in 2013, the nitrous oxide data were still raw. He asked if he could analyze the numbers. “It wasn’t expected to be interesting or take very long,” Wilkerson said. “I viewed it as a mini-project. I said let’s use this data we have, because frankly collecting it had been very expensive. I thought I might as well do this, and I can get more eddy covariance experience at the same time.”
Sure, Anderson said, go right ahead. Both men figured the data would confirm what everyone already seemed to know: Nitrous oxide from permafrost is not a credible threat.
“It was 10 million times larger than any previous study looking at permafrost N2O emissions. It makes [previous] findings quite a bit more serious.”— Jordan Wilkerson
“The assumption is that these permafrost soils are so cold there wouldn’t be much microbial activity,” Wilkerson said. “Until 2009 there was no indication by any study whatsoever that emissions could actually be quite large in permafrost regions.”
Limited research had been done using core samples, which are warmed in the controlled environment of a laboratory to see how much gas the sampled peat releases, or 15 or 20 enclosed cylinders about 18 inches in diameter and several inches deep that sample a square meter or so of the gases released from the soil in which they’re embedded. Those studies suggested N2O might be higher than previously suspected but, said Wilkerson, “they didn’t gain much traction because they were looking at such small areas. It was easy to dismiss them as not being representative of permafrost as a whole.”
The Anderson data covered far more ground than any previous study, and when Wilkerson ran the calculations he found that high emissions were relatively widespread.
In just one month, the plane had recorded enough nitrous oxide to fulfill the expected cap for an entire year. Though the Anderson data represented just 193 of the 5.5 million square miles of the Arctic — like using a Rhode Island–sized plot to represent the entire United States — “it was 10 million times larger than any previous study looking at permafrost N2O emissions,” said Wilkerson. “It makes [previous] findings quite a bit more serious.”
HT/Willie Soon
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Harvard and alarmists are grasping at straws.
Apparently since the much ballyhooed and dreaded Methane clathrate (aka methane hydrate) has been demonstrated to not be a looming cause of doom; N₂O has been promoted for climate fear and fright purposes.
Amazing since N₂O is currently approximately 326 ppb (Parts per billion) atmospheric concentration. The alleged 300 times global warming potential of N₂O is based on using an assumed 120 year atmospheric half life as part of the calculation.
Few studies counter permafrost N₂O negligible release.
12 times negligible is still negligible.
N.B.; Waffle words used to imply proof.
N.B.2; Most methods were in-situ chambers to measure N₂O; whereas this study used airplanes to “sample” N₂O concentrations; all N₂O collected is assumed to be from Permafrost.
N₂O is a straight line molecule, like CO₂ which means minimal infrared interaction.
Inert?
N₂O is an oxidizer.
There’s good reasons why racers use N₂O to boost their horsepower.
N₂O reacts with hydrogen, ozone and with methane.
N₂O is subject to nitrification and denitrification processes; e.g. soils and waters.
N₂O increases oxygen availability to fires, even ordinary wood fires; e.g. forest fires.
By the time one delves into the details and does some fact checking and confirmation, it is clear this is even drivelier than the typical alarmist drivel.
Solution ? Mine permafrost to extract free clean endless energy. Or sort of:
https://woods.stanford.edu/research/funding-opportunities/environmental-venture-projects/high-rate-microbial-production-nitrous-oxide-energy-generation
Note the presence of “funding-opportunities” and “environmental-venture” in the link. Business as usual.
As Nitrous Oxide is produced by burning diesel oil in internal combustion engines, and which has been emitted from vehicles in cities and towns across the world in great quantities for the last eighty years without any danger to the health of the nation, what is the problem?
This is good news! We are laughing our a** out when we boil off. To die happy is great .
The previous interglacial period, the Eemian, was warmer than this one with more ice cap melting and higher sea levels yet no climate tripping points were ever reached so w need not worry.
And the fourth one back, MIS 11, may have been slightly warmer still.
“Greenhouse gases rise into the atmosphere, where they trap heat and warm the planet.”
Yes. Just like on Halloween the Great Pumpkin rises into the air to find the most sincere pumpkin patch and reward the owner with toys and goodies.
Like heating a pot of oil by placing ice cubes around it.
Did that paper author go look at the areas sampled? No. Likely never stirs her stumps to go see anything, just takes the data and does what she wants with it. Meh. Okay.
Well, trying to panic people over CO2 isn’t working, so let’s use something else, something that might make them giggle. Aha! Nitrous oxide, from the dentist’s office. Yeah, that’s the ticket.
But don’t leave the comfort of the office and go into the field and do the sampling work first hand, because that requires endurance and fortitude, a quality absent in chairwarmers with computers.
Thanks for the article giving us another angle of Da Sillies coming from these people.
Translation of above article:
We have succeeded in mobilizing a large number of the gullible masses (the XR movement, schoolchildren) but we have not yet reached peak wacko.
Time to turn the volume up.. to.. TWELVE!
Thought for the day: Al Gore went to Harvard.. or did Harvard go to Al Gore?
The 1930’s were warm. What happened to the permafrost then???????
“Since N2O traps heat” … these are scientists right ? greenhouse gases don’t trap heat … never have never will …
It’s the molecule-of-the-month club with scare. The possibilities are endless.
So now it’s N2O that will produce a hothouse runaway …
N2O makes the climate clownery even more laughable.
hmm
70 trillion
https://www.nature.com/articles/s41467-019-09863-x
69 to be exact under 2C of warming
Now of course in the Holocene there was no civilization to speak of, so dont ask about the holocene
Lost again?
Nox and Methane are short term chemicals. N2O specifically reacts quickly in the atmosphere, which is why its regulated, as a ozone precursor. So, we have a chance of making small amounts of smog over the arctic that will quickly break down. They aren’t comparable to CO2.
Why are these people so ignorant of undergraduate level environmental science? This is freshman level stuff here.
“Why are these people so ignorant of undergraduate level environmental science? This is freshman level stuff here.”
I think you are confusing N₂O with NO₂.
Nick, no. All of the NOx compounds react in very similar ways. N2O is the most stable of the three, yes, but it’s still short term. Not comparable.
“All of the NOx compounds react in very similar ways.”
Completely untrue. NO₂ is an acidic oxide, which reacts with water, and is the one that is regulated as an ozone precursor. Environmental N₂O is not regulated in the same way. NO reacts quickly with oxygen to form NO₂. N₂O does not react with water or oxygen, and it does persist a very long time.
“Why are these people so ignorant of undergraduate level environmental science? ”
Because if not, they couldn’t be fanatics of the climate church clownery.
There is massive amounts of N2O released by soil tillage and chemical fertilizer. Have not seen much research on that but then again that would not be anti meat. So never mind.
Winter is coming
«N2O traps heat nearly 300 times more efficiently than carbon dioxide does «.
In physics, the specific heat capacity is a measure of the ability of a substance to absorb heat. At constant pressure these values for carbon dioxide and nitrous oxide are 0.844 and 0.88 kJ/(kg K).
It is very interesting to know which physics explains this ratio 300 in “heat trapping”?
GHG:s don’t “trap heat”, that is just propaganda verbiage for the idiot generation which hasn’t a clue about physics.
Post says:
The warming Arctic permafrost may be releasing more nitrous oxide, a potent greenhouse gas, than previously thought
Oh jeesh….
Maybe it would cause a good laugh.
Table of atmospheric N2O and other GHGs here.
https://cdiac.ess-dive.lbl.gov/pns/current_ghg.html
The table also quantifies the contribution of each gas to atmosphere in watts per square meter.
So GHG concentrations have been underestimated…looks like climate sensitivity has been overestimated again then.
Coulda,mighta,may’a .
A biologist was core sampling permafrost up here about 20 years ago roughly 62 degrees north,using the comforts of a prospecting camp,drilling on our tundra.
He laid the frozen drill samples out after passing them through a core saw.
As they thawed in the sun,mosquito larva started wriggling.
Larva dating,according to him,from the mega mammal era.
Further north on Axel Heiberg Island lies a frozen forest, approximately 1.4 million years old.
Perma-frost melting?
Obviously unprecedented, since the last time.
The odd thing is that ice-core data shows that N2O actually decreased during the warmest part of Holocene when permafrost melting must have been maximal (look at Fig 3):
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/AEBB5BE858E098730BBD845CCD2D634B/S0260305500257510a.pdf/div-class-title-atmospheric-co-span-class-sub-2-span-ch-span-class-sub-4-span-and-n-span-class-sub-2-span-o-records-over-the-past-60-000-years-based-on-the-comparison-of-different-polar-ice-cores-div.pdf
Maybe I’m missing something, but to accumulate the peat in the permafrost it must have been sufficiently warm in the past to grow the vegetation that died and accumulated as peat. Wouldn’t the presence of peat make an argument that it was warmer in the past?
Permafrost doesn’t go to bedrock, it is simply a frozen surface layer anywhere from 1 foot to about 20 feet thick. Almost the entirety of the soil is already decaying and releasing gas underneath and having the permafrost start to do it will barely be a bump in the signal.
Why do “scientists” not actually do any reference research before they declare the end of the world?
Seriously, I can refute CO2-climate-change with what I was taught in grade school science classes.
True permafrost-seeking scientists … Adrenaline seekers above the tundra!
https://xkcd.com/402/
Permafrost often goes to bedrock and is up to 1500 meters thick in northeastern Siberia. On the North Slope in Alaska it is 200-600 meters thick.