Ice loss in Antarctica and Greenland increased sixfold in the last 30 years
The methodology used to arrive at this conclusion looks pretty shaky to me -- easily fudged. But for the sake of the argument let us assume it is solid gold. The question then becomes: What is the source of the heat?
The earth is not a perfect sphere. It is flattened at the poles. So the magma underlying the earth's crust is closest to the surface there. So upwelling magma -- volcanoes -- should be more frequent there. And it is. Subsurface volcanoes are amply documented at both poles. So volcanic heat will be an influence on polar temperatures. It will melt a lot of the ice above it.
And that factor explains why Arctic temperatures are often out of sync with global temperatures. But volcanic activity is erratic so Arctic temperatures will not be different in any regular way. And that is what we do see with the Arctic.
And there is no reason to believe that Arctic temperatures will even out over time. They may be higher in one time period than another. And that is what the article below reports.
So the report below tells us nothing about global warming. It tells us a bit about polar warming but offers no systematic explanation of it
Antarctica and Greenland are losing ice six times faster than in the 1990s, a pair of studies in the journal Nature show.
According to the international team of climatologists behind the research, the unprecedented rate of melt has already contributed 0.7 inches (1.78 centimeters) to global sea level rise in the last three decades, putting the planet on track for the worst-case climate warming scenario laid out in the Intergovernmental Panel on Climate Change's (IPCC) latest report. The dreaded scenario, which predicts a total sea level rise of 23.6 inches (60 cm) by the year 2100, would put hundreds of millions of people living in coastal communities at risk of losing their homes — or their lives — to flooding.
"Every centimeter of sea level rise leads to coastal flooding and coastal erosion, disrupting people's lives around the planet," study author Andrew Shepherd, a professor of Earth Observation at the University of Leeds in England, said in a statement. "If Antarctica and Greenland continue to track the worst-case climate warming scenario, they will cause an extra 6.7 inches (17 cm) of sea level rise by the end of the century."
"This would mean 400 million people are at risk of annual coastal flooding by 2100," Shepherd added.
For the new studies, a team of 89 scientists assessed ice loss data from 11 satellites that have been monitoring Antarctica and Greenland since the early 1990s. The data created a detailed picture of how much mass each region's glaciers have lost over the last 30 years, and showed how quickly the remaining ice is flowing into the sea.
The team found that Greenland and Antarctica have lost a combined 7 trillion tons of ice (6.4 trillion metric tons) from 1992 to 2017. Almost all of the lost ice in Antarctica and about half of the lost ice in Greenland is due to warming ocean waters melting the edges of glaciers, causing each region's ice sheets to flow more quickly toward the sea. The rest of Greenland's ice loss is due to warming air temperatures, which melt the ice sheets at their surfaces, the researchers said.
The rate of ice loss in each ice sheet also increased substantially over that period, rising from a combined 89 billion tons (81 billion metric tons) per year in the 1990s to 523 billion tons (475 billion metric tons) per year in the 2010s.
This sixfold increase in the rate of ice loss means that the melting polar ice sheets are responsible for a third of all sea level rise, the researchers said. (Thermal expansion, which causes water to take up more space as it warms, is responsible for much of the remaining sea level rise.)
The accelerated ice loss puts the planet well on the way toward the IPCC's worst-case scenario.