New insight into decline of Arctic Sea ice cover
ScienceDaily (May 15, 2009) — The mechanical behavior of the Arctic sea ice cover appears to favor its rapid decline. Scientists from INSU-CNRS, Université J. Fourier and Université de Savoie have analyzed the trajectories of drifting buoys anchored in the ice and found that the mean drift rate and deformation rate of Arctic sea ice has strongly increased over the last three decades. These effects, related to the mechanical properties of the cover, contribute to the faster-than-expected decline of Arctic sea ice.
This work is published in the 14 may 2009 issue of the Journal of Geophysical Research – Oceans.Scientists from the Laboratoire de Glaciologie et Géophysique de l’Environnement of Grenoble (CNRS/Université J. Fourier) and the Laboratoire de Géophysique Interne et Tectonophysique of Chambéry (CNRS-Université J. Fourier-Université de Savoie), inspired by the 2006-2007 expedition of the polar schooner Tara, which drifted along the transpolar drift more than twice as fast as Nansen’s Fram ship 115 years earlier, analyzed the trajectories of more than 600 buoys anchored into the ice over the last 30 years1. They observed a substantial increase in the mean drift rate of the sea ice, equivalent to +10% per decade. Looking at the dispersion rate of the buoys, they also measured a strong increase in the mean deformation rate of the sea ice, equivalent to +50% in both winter and summer. This combined acceleration of Arctic sea ice drift and deformation appears to be related to, and would actually strengthen, the thinning of the cover.
A close link between sea ice deformation and fracturing had previously been revealed by scientists from LGGE(2). Increased deformation leads to greater fracturing, which in turn leads to Arctic ocean warming through solar radiation in summer. This process accelerates sea ice thinning in summer and delays refreezing in early winter, decreasing the mechanical strength of the cover and leading to even more fracturing and greater drift speed and deformation. In addition, a more fractured, and hence more mobile, sea ice cover will be exported at a faster rate out of the Arctic towards the Atlantic. These two effects, combined with the mechanical properties of the sea ice cover,probably participate to the general decline of the Arctic sea cover.
The spectacular, and largely unexpected, sea ice shrinkage observed in the summer of 2007 might be a good illustration of the interplay between sea ice deformation and decline, as the exceptional deformation rates measured by scientists in the winter of 2006-2007 most likely contributed to the levels of deformation measured the following summer and therefore to the observed shrinkage.
These complex processes and interactions, which are difficult to model in climate simulations, might partly explain why scientists have been unable to calculate the rate of decline of the Arctic sea ice cover.
1Dataset from the International Arctic Buoy Program (http://iabp.apl.washington.edu/). These buoys were originally launched to record sea level pressures and air temperatures over the Arctic.
- Rampal, P., Weiss, J. & Marsan, D. 2009. Positive trend in the mean speed and deformation rate of Arctic sea ice, 1979–2007. Journal of Geophysical Research, 114 (C5), C05013; DOI: 10.1029/2008JC005066
- Weiss, J., Schulson, E. M., & Stern, H. L. 2007. Sea ice rheology from in-situ, satellite and laboratory observations: Fracture and friction. Earth and Planetary Science Letters, 255 (1-2), 1; DOI: 10.1016/j.epsl.2006.11.033
Link to article: http://www.sciencedaily.com/releases/2009/05/090514083753.htm
I hear you. All you have to do is have seen any of the animations of sea ice to understand what's been happening. This has been pretty widely reported, in fact, so don't understand why anyone would have challenged you on it.
ReplyDeleteCheers
Oh, I dunno, I started yipping about it back in May and June 2008 -- the big guns had not weighed in yet, so nobody listened to a pipsqueak like me.
ReplyDeleteI was completely fascinated with what happened up there early last year. The situation is completely different now, the ice is so thin and weak.
Here is the link:
http://www.weatheroffice.gc.ca/satellite/index_e.html
Tenney,
ReplyDeleteas a sea-ice junky you should give a try to the Interctive Ice Browser at the Technical University of Denmark:
http://www.seaice.dk/latest-ice.html
Your blog is becoming a great resource for keeping an eye on climate science, it is greatly appreciated.
ciao
Dear Paolo,
ReplyDeleteFirst, let me say that I really appreciate your comment. I have not been as active on this blog recently due to the need to spend time trying to earn an income, but it really is getting to be about time for me to post a bunch of graphs and satellite photos as I did last year.
I have been downloading the satellite composite images from the Danish site since last year, and I would very much like to show a comparison between this year and last year, but the older images are on the harddrive of my old PC that died, and I am waiting to buy a small USB external drive for this laptop and move all the images off the old HD.
There is a site that has graphs that I would like to download, but for some reason, I can't open their pages anymore, perhaps because my IP is Brazilian. I seem to be blocked.
Please have a look at this link and see if you can see the tropospheric graphs on their figures page. There is on graph that shows the ocean temperatures over time by latitude. It is one of the scariest graphics I have ever seen.
The site is here:
http://www.remss.com/msu/msu_data_description.html#figures
It is making me crazy that I can't get the graphs for the tropospheric temperatures, nor for the ocean temperatures.
If you can get into that site, please let me know.
In the meantime, I will put together a post of satellite photos and graphs of the Arctic conditions.
The situation is quite grim. All that is needed is for a high-pressure system to sit on top of any region of the Arctic just for a couple of days this summer, and it will melt away so fast, it will make our heads spin.
The shift in the PDO protected part of the Arctic Ocean, this past year, keeping warmer waters from entering via the Bering Strait, but the PDO is shifting back in the other direction and the waters in the northern Pacific are warming up again.
This will have the usual result.
Thanks again for your comment, and please if you can open that site, let me know.
Tenney
Thanks for the link Tenney, the site does have some impressive graphics.
ReplyDeleteSend me an e-mail at:
morelli-paolo____tiscali.it
and I will send you a pdf of the page content.
Dear Paolo,
ReplyDeleteThanks so much!
I just sent you an e-mail.
Best regards,
Tenney