The narrow ice bridge that was all that was attaching the Wilkins Ice Shelf to Charcot Island has apparently cracked all the way through, though not in the intuitively obvious place, and large areas of the ice sheet are breaking off and forming icebergs. This is the second such event that has been observed, the precedent being further equatorward at the Larsen B site. While thus far the present event has been somewhat less abrupt than its predecessor, it is now comparable in scale and may continue deeper into the embayment now that the neighboring island no longer acts as a buttress.
(Most readers who follow the climate system will recognize that this does not contribute to sea level directly but will reduce the flow resistance of neighboring glaciers and thus will contribute to sea level rise in the future.) (Update: it actually does contribute a little bit.)
There are spectacular satellite photos of the event at the European Space Agency site.
Hat tip to Huntsville, Alabama's WHNT TV meteorologist Dan Satterfield.
6 comments:
In fact, it is not quite true that floating ice does not change sea level when it melts. This is because the density of the fresh water from the melted ice is lower than that of sea water. The effect is tiny, but still real. There was a nice paper about it last year in GRL, see http://www.agu.org/pubs/crossref/2007/2007GL030784.shtml
Ayup. Yet another indicator. Will society wake up, take notice, and act? (word verification says 'phythead', so signs are neutral)
Best,
D
amasing!
Can anybody explain why this ice shelf stayed with zero changes during almost a year ,and it totally desintegrated only in few hours?
Horia --- First breakup was in Decemeber 2008. Its the end of summer there now.
IIRC the Wilkins is a (rarish) sea ice-based shelf without much glacier input.
WAH is correct about the density differences resulting in some sea level rise, but the difference is pretty negligible. I'm not even sure if this matters in climate prediction models
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