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Researchers have concerns about the Laptev Sea findings.
Researchers have concerns about the Laptev Sea findings. Photograph: Markus Rex/Alfred-Wegener-Institut
Researchers have concerns about the Laptev Sea findings. Photograph: Markus Rex/Alfred-Wegener-Institut

Arctic methane deposits 'starting to release', scientists say

This article is more than 3 years old

Exclusive: expedition says preliminary findings indicate that new source of greenhouse gas off East Siberian coast has been triggered

Scientists say they have found evidence that frozen methane deposits in the Arctic Ocean have started to be released over a large area of the continental slope off the East Siberian coast, the Guardian can reveal.

High levels of the potent greenhouse gas have been detected down to a depth of 350 metres in the Laptev Sea near Russia, prompting concern among researchers that the discovery could have “serious climate consequences”.

The slope sediments in the Arctic contain a huge quantity of frozen methane and other gases – known as hydrates. Methane has a warming effect 80 times stronger than carbon dioxide over 20 years. The United States Geological Survey has previously listed Arctic hydrate destabilisation as one of four most serious scenarios for abrupt climate change.

The international team onboard the Russian research ship R/V Akademik Keldysh said most of the bubbles were currently dissolving in the water but methane levels at the surface were four to eight times what would normally be expected and this was venting into the atmosphere.

“At this moment, there is unlikely to be any major impact on global warming, but the point is that this process has now been triggered. This East Siberian slope methane hydrate system has been perturbed and the process will be ongoing,” said the Swedish scientist Örjan Gustafsson, of Stockholm University, in a satellite call from the vessel.

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Methane and the Arctic

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Why are methane hydrates considered 'sleeping giants' for the climate?

Scientists estimate 1,400 gigatonnes of carbon are locked up in subsea hydrates (frozen methane and other gases) under Arctic submarine permafrost, some of which could be vulnerable to global heating. If large volumes were released, this could rapidly destabilise the climate because methane is a potent greenhouse gas with a warming effect 80 times stronger than carbon dioxide over a 20-year period. 

Such concerns led the United States Geological Survey to list Arctic hydrate destabilisation as one of four most serious scenarios for abrupt climate change. This possibility – sometimes referred to as the 'clathrate gun hypothesis' – has been the basis for doomsday scenarios of runaway warming that tips the Earth towards a hothouse state. However, several studies suggest such fears are exaggerated.


That sounds scary. When could it happen?

There are many uncertainties: at what temperature will hydrates destabilise and, if they do, how fast will it happen; and will the gas bubbles reach the surface and be released into the atmosphere or simply dissolve in the oceans? These and other questions are now the subject of intense research on the shelf and slopes of the Laptev Sea and other areas of the Arctic.

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The scientists – who are part of a multi-year International Shelf Study Expedition – stressed their findings were preliminary. Methane seeps detected in the past were found to be historic, but the expedition believes these are new based on an earlier study showing movement of the subsea permafrost between the early 1980s and 2015. The scale of methane releases will not be confirmed until they return, analyse the data and have their studies published in a peer-reviewed journal.

But the discovery of potentially destabilised slope frozen methane raises concerns about the potential impact on the speed of global heating.

The Arctic is considered ground zero in the debate about the vulnerability of frozen methane deposits – which have been called the “sleeping giants of the carbon cycle” - in the ocean, and if releases were to exceed a tipping point it could increase the speed of global heating.

With the Arctic temperature now rising more than twice as fast as the global average, the question of when – or even whether – they will be released into the atmosphere has been a matter of considerable uncertainty in climate computer models.

The 60-member team on the Akademik Keldysh believe they are the first to observationally confirm the methane release is already under way across a wide area of the slope about 600km offshore.

Scientists at work on the test cruise Electra 1, prior to the Akademik Keldysh expedition. Photograph: ISSS2020

At six monitoring points over a slope area 150km in length and 10km wide, they saw clouds of bubbles released from sediment.

At one location on the Laptev Sea slope at a depth of about 300 metres they found methane concentrations of up to 1,600 nanomoles per litre, which is 400 times higher than would be expected if the sea and the atmosphere were in equilibrium.

Igor Semiletov, of the Russian Academy of Sciences, who is the chief scientist onboard, said the discharges were “significantly larger” than anything found before. “The discovery of actively releasing shelf slope hydrates is very important and unknown until now,” he said. “This is a new page. Potentially they can have serious climate consequences, but we need more study before we can confirm that.”

The most likely cause of the instability is an intrusion of warm Atlantic currents into the east Arctic. This “Atlantification” is driven by human-induced climate disruption.

The latest discovery potentially marks the third source of methane emissions from the region. Semiletov, who has been studying this area for two decades, has previously reported the gas is being released from the shelf of the Arctic – the biggest of any sea.

For the second year in a row, his team have found crater-like pockmarks in the shallower parts of the Laptev Sea and East Siberian Sea that are discharging bubble jets of methane, which is reaching the sea surface at levels tens to hundreds of times higher than normal. This is similar to the craters and sinkholes reported from inland Siberian tundra earlier this autumn.

Temperatures in Siberia were 5C higher than average from January to June this year, an anomaly that was made at least 600 times more likely by human-caused emissions of carbon dioxide and methane. Last winter’s sea ice melted unusually early. This winter’s freeze has yet to begin, already a later start than at any time on record.

This article was amended on 4 and 17 November 2020 to further emphasise the preliminary nature and context of the findings, and to attribute concerns about the possible consequences of the observations. The reference to a tipping point was revised to better convey the nature of this concern.

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