October 24, 2013, by Tim Radford
The now-exposed tundra plants on Baffin Island, Canada suggest exceptional warmth in the Arctic
Image: Gifford Miller via AGU
FOR IMMEDIATE RELEASE Average summer temperatures in the Canadian Arctic are now at the highest they’ve been for approaching 50,000 years, new evidence suggests. LONDON, 24 October – Good news for Arctic mosses, if not for any other Arctic creatures: little tundra plants that have been buried under the Canadian ice can feel the sunlight for the first time in at least 44,000 years. The implication is that the Arctic is now, and has been for the last 100 years, warmer than at any time in the last 44,000 years and perhaps for the last 120,000 years. This also means that the Arctic is warmer now than it was in what geologists call the early Holocene, the end of the last Ice Age – when the peak summer sunlight was roughly nine per cent greater than it is today, according to Gifford Miller of the University of Colorado Boulder, in the US. The mosses studied by Dr Miller, of course, could feel nothing: they were dead. But they could tell a story, all the same. The Arctic ice cap has been in constant retreat for the last century, and glaciers almost everywhere have been melting: there are fears that the process has begun to accelerate as greenhouse gases concentrate in the atmosphere. But as the ice recedes, it exposes evidence of the past, preserved over the millennia in the natural deep freeze.
Creating a timeline of climate change
The researchers used a technique called radiocarbon dating to establish that the mosses had been screened from the elements for at least 44,000 to 51,000 years. Since radiocarbon dating is only accurate for about 50,000 years, the mosses could have been buried for perhaps 120,000 years, since the last “interglacial” when the polar regions experienced a natural thaw. Miller and colleagues report in Geophysical Research Letters that they did their fieldwork on Baffin Island in the Arctic Circle, and measured the radiocarbon ages of the dead mosses in at least four different locations. They were careful to pick their 145 samples within one metre of the receding ice cap. Since the ice is receding at two or three metres a year, they could be sure the plant tissues had just been exposed that season. Since the plants could only have taken root in sunlight, they were evidence that the exposed terrain was once free of ice. They became silent witnesses, telling researchers about the changes through time in the frozen North. “The key piece here is just how unprecedented the warming of Arctic Canada is. This study really says the warming we are seeing is outside any kind of known natural variability, and it has to be due to increased greenhouse gases in the atmosphere,” said Miller.
Recent decades critical
Since radiocarbon clocks can only tick for so long, the Colorado team used ice cores to provide clues to the climate history of Baffin Island: each winter’s snowfall and summer melt is preserved in the icepack and like the growth rings in a tree provides a calendar of annual change. The last time temperatures on Baffin Island were as high as today was about 120,000 years ago. About 5,000 years ago, after a mellow period in the early Holocene, the Arctic began to cool again, and stayed cool until the beginning of the last century. “Although the Arctic has been warming since about 1900, the most significant warming in the region didn’t really start until the 1970s,” said Dr Miller. “And it really is in the last 20 years that the warming signal from that region has been just stunning. All of Baffin Island is melting, and we expect all of the ice caps to disappear, even if there is no additional warming.” – Climate News Network
Tim Radford, a founding editor of Climate News Network, worked for The Guardian for 32 years, for most of that time as science editor. He has been covering climate change since 1988.