Scientists have succeeded in saving samples of ancient Arctic ice for analysis in a race against time before it melts away due to climate change, they said this week.
The eight French, Italian and Norwegian researchers camped in Norway’s Svalbard archipelago in March and April, braving storms and mishaps to preserve crucial ice records that can be used to analyse what the Earth’s climate looked like in the past and chart the devastating impact human activity is having on it now.
The Ice Memory Foundation team extracted three huge tubes of glacier ice on Svalbard. They, like others collected by the 20-year project launched in 2015, will be preserved for future scientific analysis at a research station in Antarctica.
Analysing chemicals in such deep “ice cores” provides valuable data about centuries of past climatic and environmental conditions, long after the original glacier has disappeared.
But it is a race to preserve this “ice memory”. Experts warn that as global temperatures rise, meltwater is leaking into ancient ice and risks destroying the geochemical records it contains before scientists can collect the data.
When the Ice Memory team set up camp in March on Holtedahlfonna, one of the highest and most northerly glaciers in the Arctic, the first hitch was the weather.
Instead of the expected -25 degrees Celsius, fierce winds forced the temperature down to -40C, delaying drilling for several days.
Then, once they had bored a 24.5-metre (80-foot) hole in the ice, water from the melting glacier rushed into it.
Even though radar data collected since 2005 showed there was some meltwater inside the Holtedalhfonna glacier, “we did not expect to find such an extended, abundant and saturated aquifer in the selected drilling site, at the end of winter”, explained Jean-Charles Gallet, snow physicist at the Norwegian Polar Institute and expedition coordinator.
“Glaciers are not only dramatically losing their mass but also their cold content.”
‘Dramatic climate change’
Aquifers are underground reservoirs of freshwater or saltwater that permeate the ice crystals in glaciers and weaken them.
“Seeing all that water in the glacier gave us the clearest evidence yet of the effects that dramatic climate change is having in the Arctic,” said Daniele Zannoni, a member of the team from the Ca’ Foscari University in Venice.
Human-caused carbon emissions have warmed the planet by 1.15 degrees Celsius since industrialisation, powered by fossil fuels, began the 19th century. Studies indicate that the Arctic is warming between two and four times faster than the global average.
On Friday, the United Nations said the world’s 40-odd “reference glaciers” — those for which long-term observations exist — are more than 26 metres thinner now on average than in 1970.
The pressure of the melt water rushing into the Holtedalhfonna drill hole damaged two of the team’s driller motors, forcing them to relocate to the summit of the Dovrebreen glacier, 13 metres higher up.
When drilling resumed, the researchers succeeded in extracting three ice cores 50-75 metres long. The strata and air bubbles trapped in these precious translucent cylinders, just a dozen centimetres in diameter, could contain up to 300 years of climate history.
Race against time
The race is on for glaciologists, who “are seeing their primary material disappear forever from the surface of the planet”, Jerome Chappellaz, president of the Ice Memory foundation, told AFP on April 3.
“It is our responsibility as glaciologists of this generation to make sure a bit of it is preserved.”
When the researchers had three ice samples, the temperature in Svalbard shot up to -3C, turning part of the route back to their base at the Ny-Alesund research station into a treacherous torrent of water.
Two of the ice cores made it base but the third is still stuck at the drilling site, waiting for more clement weather to be shipped out.
In the meantime, Ice Memory has put out an international plea to other researchers.
“We do need (them)… rapidly to collect samples from endangered glaciers or to save… already collected ice cores, to preserve these very precious data in the Ice Memory sanctuary in Antarctica,” said paleoclimatologist and Ice Memory vice-chair Carlo Barbante.
“If we lose archives like this, we will lose the memory of human alteration of the climate,” stressed Ice Memory director Anne-Catherine Ohlmann.
“We will also lose crucial information for future scientists and policymakers, who will have to make decisions for the well-being of society.”