I’ll repeat the basic facts:
The sea ice area in the Arctic has been monitored by satellite for almost 30 years, since 1979. The area of the ice rises and falls, as you would expect, as the year cycles through its seasons. It reaches its yearly minimum by late September or early October. On the average, this minimum has been declining for the last 30 years. After October the northern sea ice area increases until it reaches a maximum in late March or early April each year. The yearly cycle is huge. Typically, about 60% of the total sea ice area melts away as is goes from yearly maximum to the yearly minimum.
The 2007 melt season was very severe and the Arctic sea ice area anomaly reached its lowest level since satellite tracking began. But that low level was immediately followed by an unprecedented rise in sea ice area in the Arctic in the months following the 2007 summer melt season. The 2008 melt season was quite severe, but not as severe as the 2007 melt season. In order to go from the minimum ice extent of 2007 to zero ice in 2012, the Arctic sea ice extent minimum needs to drop an average of about 600,000 square kilometers per year. But the Arctic ended up with slightly more ice area (about 100,000 square kilometers more) after the 2008 melt season than after the 2007 melt season. Figure 1, below sums it up.
New predictions of meltdown
The ice that has covered the Arctic basin for a million years will be gone in little more than six years because of global warming, a University of Manitoba geoscientist said. And David Barber said that once the sea ice is gone, more humans will be attracted to the Arctic, bringing with them even more ill effects…He said he estimates the Arctic sea should see its first ice-free summer around 2015…Barber has said before the Arctic basin would be free of summer sea ice some time between 2013 and 2030. But their research about recent changes in the Arctic has allowed them to pinpoint the date even closer.
Barber sounds like a smart guy, and was the scientist in charge of a $40-million Arctic research project, the Circumpolar Flaw Lead System Study. He will present his preliminary findings at the International Arctic Change 2008 conference in Quebec. However, his track record for predictions is rather spotty. Earlier this year National Geographic reported:
“We’re actually projecting this year that the North Pole may be free of ice for the first time [in history],” David Barber, of the University of Manitoba, told National Geographic News aboard the C.C.G.S. Amundsen, a Canadian research icebreaker.”
Prediction for summer of 2008 didn’t work out
The Arctic sea ice concentration reached its minimum around September 15th this year. Figure 2, below, from the Polar Research Group at the University of Illinois, shows the distribution of ice in the Arctic on that day. As you can see, the North Pole was not even close to being ice free. Figure 3 shows the Arctic Basin sea ice area for the last 365 days. Note that in mid-September the the sea ice area anomaly for the Arctic Basin was about negative 0.75 million square kilometers, but there were still 2.5 million square kilometers of ice yet to melt. Again, not even close to zero.
Figure 2. Arctic Sea Ice Concentration on September 15th, 2008, when the Arctic sea ice reached its minimum for the year. Image from the University of Illinois Polar Research Group.
Figure 3. Arctic Basin sea ice area for the last 365 days. In mid-September the sea ice anomaly was negative 0.75 million square kilometers, but there were 2.5 million square kilometers more than zero. Image from the University of Illinois Polar Research Group. Click on image to see clearer version.
Figure 4. Skate (SSN-578), surfaced at the North Pole, 17 March 1959. US Navy photo courtesy of tripod.com. This image is from NavSource Online: Submarine Photo Archive
Figure 5. Seadragon (SSN-584), foreground, and her sister Skate (SSN-578) during a rendezvous at the North Pole in August 1962. Note the men on the ice beyond the submarines. USN photo from The American Submarine, by Norman Polmar. This image is from NavSource Online: Submarine Photo Archive
What about Barber’s prediction for 2015?
The December 5th StarPhoenix article mentioned above says that according to Barber, “The ice that has covered the Arctic basin for a million years will be gone in little more than six years because of global warming.” I wonder if Barber can seriously believe that the Arctic Basin has been continuously ice covered for “a million years.” There is considerable evidence that the entire Arctic region was warmer just several thousand years ago than it is now.
Open water from the northern coast of Greenland to the North Pole likely occurred in the not too distant past. According to Science Daily, Astrid Lysa and colleagues have studied shore features, driftwood samples, microfossils and shore sediments from Northern Greenland. Science Daily reports:
“The architecture of a sandy shore depends partly on whether wave activity or pack ice has influenced its formation. Beach ridges, which are generally distinct, very long, broad features running parallel to the shoreline, form when there is wave activity and occasional storms. This requires periodically open water,” Astrid Lyså explains.
Pack-ice ridges which form when drift ice is pressed onto the seashore piling up shore sediments that lie in its path, have a completely different character. They are generally shorter, narrower and more irregular in shape.
“The beach ridges which we have had dated to about 6000-7000 years ago were shaped by wave activity,” says Astrid Lyså. They are located at the mouth of Independence Fjord in North Greenland, on an open, flat plain facing directly onto the Arctic Ocean. Today, drift ice forms a continuous cover from the land here.
Astrid Lyså says that such old beach formations require that the sea all the way to the North Pole was periodically ice free for a long time.
“This stands in sharp contrast to the present-day situation where only ridges piled up by pack ice are being formed,” she says.
Funder and Kjaer reported similar results at the 2007 fall meeting of the American Geophysical Union. They point out that “Presently the North Greenland coastline is permanently beleaguered by pack ice…” but “that for a period in the Early Holocene, probably for a millennium or more, the Arctic Ocean was free of sea ice at least for short periods in the summer.” They date this time period to sometime between 8500 and 6000 years ago. (Update 7/8/10 – Funder now believes “that multiyear sea ice was reduced to between half and a third of the present during the Holocene Thermal Optimum.” Thanks to Kevin O’Neill and his persistence in making this correction.)
An Open Challenge to David Barber
I am concerned about climate exaggerations and the effect they have on public policy makers. It seems quite clear that David Barber was off the mark when he predicted that “this year that the North Pole may be free of ice for the first time,” because neither the Arctic Ocean, the Arctic Basin nor the North Pole were ice free this past summer. The North Pole being ice free is not that unusual, and the entire Arctic was probably ice free a relatively short 7,000 years ago.
Now Barber has made the slightly longer term prediction that “The ice that has covered the Arctic basin for a million years will be gone in little more than six years.” I propose a friendly wager based on this prediction. I will bet David Barber $1000(US) that the ice covering the Arctic Basin will not be gone anytime before December 31st, 2015. The bet would involve no transfer of cash between myself or Barber, but rather, the loser will pay the sum to a charitable organization designated by the winner.
Definition of terms. The Arctic Basin is defined by the regional map at Cryosphere Today. “Gone” means the Arctic Basin sea ice area is less that 100,000 square kilometers, according to National Center for Environmental Prediction/NOAA as presented at Cryosphere Today . Charitable organizations will be agreed upon at the time the bet is initiated.
David Barber is a smart guy and evidently an expert in his field. Taking on a wager with an amateur like me should be like shooting fish in a barrel. I look forward to reaching an agreement soon.