Collapse Of Antarctic Ice Sheet Would Likely Put Washington, D.C. Largely Underwater

Wow. I have predicted that the melting of glaciers and ice sheets would cause earth quakes, but that was a no-brainer. Anybody with a little knowledge of such things can predict that. and I have seen such predictions by scientists since then. (I'm not suggesting they got the idea from me. It takes more time for such things to get published in scientific journals.) However, it never occurred to me that it might shift the position of the poles, although now that it's been mentioned, I can see that the massive redistribution of water could do so.
If you've ever had to carry water around, you know it's heavy.

http://www.sciencedaily.com/releases/2009/02/090205142132.htm

ScienceDaily (Feb. 6, 2009) — University of Toronto and Oregon State University geophysicists have shown that should the West Antarctic Ice Sheet collapse and melt in a warming world – as many scientists are concerned it will – it is the coastlines of North America and of nations in the southern Indian Ocean that will face the greatest threats from rising sea levels.

The catastrophic increase in sea level, already projected to average between 16 and 17 feet around the world, would be almost 21 feet in such places as Washington, D.C., scientists say, putting it largely underwater. Many coastal areas would be devastated. Much of Southern Florida would disappear, according to researchers at Oregon State University.

“There is widespread concern that the West Antarctic Ice Sheet may be prone to collapse, resulting in a rise in global sea levels,” says geophysicist Jerry X. Mitrovica, who, along with physics graduate student Natalya Gomez and Oregon State University geoscientist Peter Clark, are the authors of a new study to be published in the February 6 issue of the journal Science. “We’ve been able to calculate that not only will the rise in sea levels at most coastal sites be significantly higher than previously expected, but that the sea-level change will be highly variable around the globe,” adds Gomez.
...
“The typical estimate of the sea-level change is five metres, a value arrived at by taking the total volume of the West Antarctic Ice Sheet, converting it to water and spreading it evenly across the oceans, says Mitrovica. “However, this estimate is far too simplified because it ignores three significant effects:

* when an ice sheet melts, its gravitational pull on the ocean is reduced and water moves away from it. The net effect is that the sea level actually falls within 2,000 km of a melting ice sheet, and rises progressively further away from it. If the West Antarctic Ice Sheet collapses, sea level will fall close to the Antarctic and will rise much more than the expected estimate in the northern hemisphere because of this gravitational effect;
* the depression in the Antarctic bedrock that currently sits under the weight of the ice sheet will become filled with water if the ice sheet collapses. However, the size of this hole will shrink as the region rebounds after the ice disappears, pushing some of the water out into the ocean, and this effect will further contribute to the sea-level rise;
* the melting of the West Antarctic Ice Sheet will actually cause the Earth’s rotation axis to shift rather dramatically – approximately 500 metres from its present position if the entire ice sheet melts. This shift will move water from the southern Atlantic and Pacific oceans northward toward North America and into the southern Indian Ocean.

“The net effect of all of these processes is that if the West Antarctic Ice Sheet collapses, the rise in sea levels around many coastal regions will be as much as 25 per cent more than expected, for a total of between six and seven metres if the whole ice sheet melts,” says Mitrovica. “That’s a lot of additional water, particularly around such highly populated areas as Washington, D.C., New York City, and the California coastline.”

Digital animation of what various sea-level rise scenarios might look like for up to six metres is at http://www.cresis.ku.edu/research/data/sea_level_rise.