Ocean floor observatories, research ship and airplane were deployed to a area of 250 active methane gas flares in the Arctic Ocean. |
"Our results are exciting and controversial," says senior scientist Cathrine Lund Myhre from NILU -- Norwegian Institute for Air Research, who is cooperating with CAGE through MOCA project.
The results were published in Geophysical Research Letters.
The scientist performed simultaneous measurements close to seabed, in the ocean and in the atmosphere during an extensive ship and air campaign offshore Svalbard Archipelago in summer 2014. As of today, three independent models employing the marine and atmospheric measurements show that the methane emissions from the sea bed in the area did not significantly affect the atmosphere.
"This is an important message to bring to the debate on the state of the ocean and atmospheric system in the Arctic. It is also important to emphasize that the Arctic has in recent years experienced major changes and average temperatures well above normal values. A thorough description of the present state of the Arctic environment, possible only with adequate measurements, is essential to the detection of future changes of potentially global significance." says Lund Myhre.
Methane increase since 2006
Levels of methane in the atmosphere have risen by an average of 6 parts per billion (ppb) globally per year since 2006, and slightly more over the Arctic and Norway. Since methane is the most important greenhouse gas after CO2, it is very important to explore why.
Vast quantities of methane gas are stored under the seabed in ice-like substances called methane hydrates. One possible explanation for the increased methane concentration in the atmosphere is that these hydrates dissolve as the oceans become warmer. Methane gas leaks from the methane hydrates under the seabed, and rises through the water. The scientists want to find out if these emissions are increasing, and just how much methane is reaching the atmosphere.
"Estimates on how much methane gas is stored beneath the seabed as hydrates vary enormously. A recent calculation suggests that we are talking about 74,000 gigatonnes, and one gigatonne is a billion tonnes," says professor Jürgen Mienert, director at CAGE.
If any of the methane stored in the Arctic hydrate reservoirs is released into the atmosphere as a result of climate change, this could have a global impact in terms of further climate warming, in addition to what human activities are already contributing.
Why is methane not released to the atmosphere?
Sea ice, the obvious obstacle to such emissions, is not found here in the summer. So what is stopping the methane? Emissions from the sea bed are after all clearly visible both on the seabed and in the water column.
"We are talking about 250 active methane seeps found at relatively shallow depths: 90 to 150 meters" says oceanographer Benedicte Ferré from CAGE.
According to her, it is the sea itself that adds obstacles to methane emissions to the atmosphere in the summer. The weather is generally calm during summer, with little wind. This leads to stratification of the water column whereby layers of different density form, much like oil over water.
This means there is no or low exchange of water masses between the surface layer and the layers below. A natural barrier occurs, acting as a ceiling, preventing the methane from reaching the surface.But this condition does not last forever: wind blowing over the ocean can mix these layers, causing this natural barrier to disappear. Thus the methane may break the surface and enter the atmosphere.
"There is still a lot we do not know about seasonal variations. The methane can also be transported by water masses, or dissolve and be eaten by bacteria in the ocean. Thus long term observations are necessary to understand the emissions throughout the year. The only way to obtain these measurements are to use observatories that remain on the seabed for a long time," says Benedicte Ferré.
CAGE set out two such observatories last year, which have been retrieved in May with data waiting to be analysed.
Read more at Science Daily
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