A new approach to processing satellite data of ice sheets allows images such as this one: the first detailed picture of a 600-by-50-kilometer eyedropper-shaped ice formation known informally as NEGIS (for Northeast Greenland Ice Stream). NEGIS wasn’t even known to science until 1991. The new processing approach shows structures and features that give clues into how this and other parts of Greenland and Antarctica are melting. NEGIS is sliding toward the sea at a few hundred meters per year.
National Snow and Ice Data Center, University of Colorado, Boulder
A new technique provides clearer pictures of massive ice sheets--and better insight into future sea-level increases.
Greenland holds enough water to raise global sea levels seven meters, and southern Greenland is already showing accelerated melting. But the rate of this melting and other ice dynamics are poorly understood, partly because Greenland's surface is so inscrutably white and featureless in ordinary satellite images. Now, a new image-processing approach gives a clearer view of subtle inland features, providing sharper clues into glacial movements--and better insight into future sea-level increases.
The technology starts with as many as 94 red and infrared images of the same region, taken by two NASA satellites, called Terra and Aqua, that have polar orbits and cross Greenland several times a day. Each raw image--a measure of light from the surface--has a resolution of 250 meters per pixel. But by aligning and averaging values within areas of pixel overlap among multiple images of the same area, researchers at the National Snow and Ice Data Center at the University of Colorado at Boulder tightened the resolution to as little as 100 meters per pixel and roughly quadrupled contrast sensitivity.
As one example of a payoff, researchers are finally getting a clear picture of a 600-by-50-kilometer eyedropper-shaped ice formation informally known as NEGIS (for Northeast Greenland Ice Stream). This massive feature--which is sliding toward the sea at a few hundred meters per year--wasn't even known to science until 1991. And it hasn't been imaged in detail until recent months. "What we've done now is see how far upstream it goes, how close it comes to the summit of Greenland, and see some structures at the edges, to get an idea [of] how fast ice flows" and what directions it flows in, says Ted Scambos, lead scientist and glaciologist at the Boulder center, who codeveloped the image-processing approach.
Scambos says that such insights are everything when it comes to finding out how fast Greenland's ice will pour into the ocean and begin inundating the world's coastlines. The same technology is being applied to images of Antarctica, whose ice sheet contains enough water to raise sea levels 65 meters if all of it melts. The rate of such melting is one of the most poorly understood yet most high-impact effects of global warming.
"This gives us better resolution of subtle structures in the interior of the ice sheet," says Scambos. "To the naked eye it looks like a smooth white plain. But there are hills, bumps, and ridges that show us how the ice is flowing, and how it will drain out from glaciers. Once we get away from the coast, the features that are important have to do with how the ice flows. They can be very subtle--hills and valleys that show you how the ice is moving off the continent. What we've got is a map that shows details much further inland, much further than before. Other images just show the interior of the ice sheet as a blank white surface without any features."
At a remote outpost in northern Greenland, a team of scientists are attempting to resolve the central mystery of global warming: how quickly will sea levels rise?
Guest (hosro59@comcast.net)
And Now Something Entirely Different
We have seen research for a number of years on ice melts and threats of sea level increases. Reducing human impact on global warming needs to be covered in a manner so that we, industry, and political structures know what specific kinds of action to take. Do we, for example, have a time frame to recover before identified catastrophic events? Are Katrinas more likely, as well as changes in weather patterns and strength of storms? Is a tsunami of historical size possible? The ice sheet melts more rapidly is mentioned, but is failure of a great ice sheet sliding into the sea and creating a great wave possible?
Manufacturing in the United States is in trouble. That's bad news not just for the country's economy but for the future of innovation.
This document is part of the “How-To Guide for Most Common Measurements” centralized resource portal. This tutorial provides a detailed guide for measurement and device considerations to take temperature measurements using thermocouples. Get an introduction to thermocouples, which are inexpensive sensing devices widely used with PC-based data acquisition systems. Also review some specific thermocouple examples and learn how thermocouples work and ways to integrate them into a data acquisition measurement system.
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tomklein
4 Comments
Al's Event
A Jan 16th New York Times article on Greenland ice contained the following: " Greenland is covered by 630,000 cubic miles of ice, enough water to raise global sea levels by 23 feet. Carl Egede Boggild, a professor of snow-and-ice physics at the University Center of Svalbard, said Greenland could be losing more than 80 cubic miles of ice per year. “That corresponds to three times the volume of all the glaciers in the Alps,” Dr. Boggild said."
The numbers in the article provides a calculated annual sea level rise due to Greenland ice melting of 0.035 inches per year, about the thickness of a heavy sheet of paper. Not much to worry about a mere annual 80 cubic miles loss per year, but will the ice slide off of Greenland in a catastrophic event as Al Gore warned in his more aptly named movie Inconvenient Truths? Why would it? It didn't slide off a thousand years ago during the Medieval Climate Optimum when the Vikings had vineyards on Greenland. Could it slide off? There is a miniscual probability that practically anything could happen, but if I don't find it productive to worry about a large errant asteroid smacking us, why should I worry about Al's event.
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ms
190 Comments
Re: Al's Event
That's almost a millimeter--awfully thick for even a thick sheet of paper. See http://www.paper-paper.com/weight.html
You may not worry about such a small amount, but we don't really understand the process well enough to know that there won't be an "avalanche".
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Gurthang
52 Comments
Re: Al's Event
I don't think anyone believes it will be a Hollywoodesque avalanche. But there is great concern that some effects on the Greenland ice sheet may be synergistic. Leading to a rapid (in glacial terms) breakup of the ice sheet.
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Cpt_Nemo
17 Comments
Re: Al's Event
The talk of big melt lakes forming on the glacier's surface during summer and then draining down crevases will tend to have a positive feedback on the speed of glacier movement towards the sea (increasing the likelihood of Al Gore's worry of a 'catastrophic' deterioration of the ice sheets) as the water would act as a lubricant - freeing the massive amounts of ice from the friction that slows their progress.
This means we would be reaching the point where massive icebergs calve from the glacier and float on sea currents into warmer water more rapidly than scientists have predicted using their climate models.
This seems to be similar to the processes that recently liberated enormous masses of ice from Antartica and sent it towards the warmer climate of New Zealand - accelerating the rate of rising sea levels.
This is a major problem that threatens the inhabitability of low lying island nations - like Tonga, Fiji, and Vanuatu.
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