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| Frederikshåb Isblink in West Greenland. The small lake has previously received meltwater from the glacier when it was further advanced [Credit: Nicolaj Larsen] |
With hard work and high spirits the scientists spent six summers coring lakes in the ice free land surrounding the ice sheet. The lakes act as a valuable archive as they store glacial meltwater sediments in periods where the ice is advanced. That way is possible to study and precisely date periods in time when the ice was smaller than present.
"It has been hard work getting all these lake cores home, but is has definitely been worth the effort. Finally we are able to describe the ice sheet's response to earlier warm periods," says Dr. Nicolaj Krog Larsen of Aarhus University, Denmark.
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| Nicolaj Larsen and Anders Bjørk working on a drilling platform bv the Helheim glacier in Southeast Greenland [Credit: Kurt Kjær] |
The size of the Greenland Ice Sheet has varied since the Ice Age ended 11,500 years ago, and scientists have long sought to investigate the response to the warmest period 8,000-5,000 years ago where the temperatures were 2-4 °C warmer than they are in the present.
"The glaciers always leave evidence about their presence in the landscape. So far the problem has just been that the evidence is removed by new glacial advances. That is why it is unique that we are now able to quantify the mass loss during past warming by combining the lake sediment records with state-of-the-art modelling," says Professor Kurt Kjær, Natural History Museum of Denmark.
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| Nicolaj Larsen and Kurt Kjær in Southeast Greenland with a newly recorded core [Credit: Anders Bjørk] |
Their results show that the ice had its smallest extent exactly during the warming 8,000-5,000 years ago -- with that knowledge in hand they were able to review all available ice sheet models and choose the ones that best reproduced the reality of the past warming.
The best models show that during this period the ice sheet was losing mass at a rate of 100 Gigaton pr. year for several thousand years, and delivered the equivalent of 16 cm of global sea-level rise when temperatures were 2-4 °C warmer. For comparison, the mass loss in the last 25 years has varied between 0-400 Gigaton pr. year, and it is expected that the Arctic will warm 2-7 °C by the year 2100.
Source: Faculty of Science - University of Copenhagen [February 20, 2015]