Arctic Ice Melting At ‘Amazing’ Speed

The loss of Arctic ice is massively compounding the effects of greenhouse gas emissions, ice scientist Professor Peter Wadhams has told BBC Newsnight. White ice reflects more sunlight than open water, acting like a parasol. Melting of white Arctic ice, currently at its lowest level in recent history, is causing more absorption. Prof Wadhams calculates this absorption of the sun’s rays is having an effect “the equivalent of about 20 years of additional CO2 being added by man”.

The Cambridge University expert says that the Arctic ice cap is “heading for oblivion”. In 1980, the Arctic ice in summer made up some 2% of the Earth’s surface. But since then the ice has roughly halved in area. “Thirty years ago there was typically about eight million square kilometres of ice left in the Arctic in the summer, and by 2007 that had halved, it had gone down to about four million, and this year it has gone down below that,” Prof Wadhams said. And the volume of ice has dropped, with the ice getting thinner: “The volume of ice in the summer is only a quarter of what it was 30 years ago and that’s really the prelude to this final collapse,” Prof Wadhams said.

Scientists in the Arctic are warning that this summer’s record-breaking melt is part of an accelerating trend with profound implications. Norwegian researchers report that the sea ice is becoming significantly thinner and more vulnerable. Last month, the annual thaw of the region’s floating ice reached the lowest level since satellite monitoring began, more than 30 years ago.

It is thought the scale of the decline may even affect Europe’s weather. The melt is set to continue for at least another week – the peak is usually reached in mid-September – while temperatures here remain above freezing.
The Norwegian Polar Institute (NPI) is at the forefront of Arctic research and its international director, Kim Holmen, told the BBC that the speed of the melting was faster than expected. “It is a greater change than we could even imagine 20 years ago, even 10 years ago,” Dr Holmen said. “And it has taken us by surprise and we must adjust our understanding of the system and we must adjust our science and we must adjust our feelings for the nature around us.” The institute has been deploying its icebreaker, Lance, to research conditions between Svalbard and Greenland – the main route through which ice flows out of the Arctic Ocean. During a visit to the port, one of the scientists involved, Dr Edmond Hansen, told me he was “amazed” at the size and speed of this year’s melt. “As a scientist, I know that this is unprecedented in at least as much as 1,500 years. It is truly amazing – it is a huge dramatic change in the system,” Dr Hansen said. “This is not some short-lived phenomenon – this is an ongoing trend. You lose more and more ice and it is accelerating – you can just look at the graphs, the observations, and you can see what’s happening.”

Key data on the ice comes from satellites but also from measurements made by a range of different techniques – a mix of old and new technology harnessed to help answer the key environmental questions of our age. The Norwegians send teams out on to the floating ice to drill holes into it and extract cores to determine the ice’s origin. And since the early 90s they have installed specialist buoys, tethered to the seabed, which use sonar to provide a near-constant stream of data about the ice above. An electro-magnetic device known as an EM-Bird has also been flown, suspended beneath a helicopter, in long sweeps over the ice. The torpedo-shaped instrument gathers data about the difference between the level of the seawater beneath the ice and the surface of the ice itself. By flying transects over the ice, a picture of its thickness emerges. The latest data is still being processed but one of the institute’s sea ice specialists, Dr Sebastian Gerland, said that though conditions vary year by year a pattern is clear. “In the region where we work we can see a general trend to thinner ice – in the Fram Strait and at some coastal stations.”

Where the ice vanishes entirely, the surface loses its usual highly reflective whiteness – which sends most solar radiation back into space – and is replaced by darker waters instead which absorb more heat. According to Dr Gerland, additional warming can take place even if ice remains in a far thinner state. “It means there is more light penetrating through the ice – that depends to a high degree on the snow cover but once it has melted the light can get through,” Dr Gerland said.

“If the ice is thinner there is more light penetrating and that light can heat the water.” The most cautious forecasts say that the Arctic might become ice-free in the summer by the 2080s or 2090s. But recently many estimates for that scenario have been brought forward. Early research investigating the implications suggests that a massive reduction in sea ice is likely to have an impact on the path of the jet stream, the high-altitude wind that guides weather systems, including storms. The course and speed of the jet stream is governed by the difference in temperature between the Tropics and the Arctic, so a change on the scale being observed now could be felt across Europe and beyond.

Kim Holmen of the NPI explained how the connection might work. “When the Arctic is ice free, it is not white any more and it will absorb more sunlight and that change will influence wind systems and where the precipitation comes. “For northern Europe it could mean much more precipitation, while southern Europe will become drier so there are large scale shifts across the entire continent.”

That assessment is mirrored by work at the European Centre for Medium-Range Weather Forecasting, based in the British town of Reading. The centre’s director-general, Alan Thorpe, said the link between the Arctic melt and European weather was complicated but it is now the subject of research. “Where Arctic sea ice is reducing in summer – and if we have warmer than average sea surface temperatures in the north-west Atlantic – these twin factors together lead to storms being steered over the UK in summer which is not the normal situation and leads to our poorer summers.”

But the research is in its earliest stages. For science, the Arctic itself is hard to decipher. The effects of its rapid melt are even tougher.

From the BBC

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