Post the study on global warming and rise in sea-levels, NASA is now interpreting the effects and causes of the same. In regarding this subject, a new study by three scientists finds yet another cause of glacier meltdown. The finding suggests that the ice in Rink Glacier, Greenland, didn’t just melt faster than usual, it slid through the glacier’s interior in a gigantic wave which actually is similar to a warmed freezer pop sliding out of its plastic casing.

Though the study’s initial aim was to precisely track a glacier’s loss of mass from melting ice using the horizontal motion of a GPS sensor and that ultimately led to this discovery. The team used data from a single sensor in the Greenland GPS Network (GNET), sited on bedrock next to the Glacier which was mentioned above.

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Researchers now saw the wave pattern in the GPS data for 2010, the second hottest summer on record in Greenland. Although they did not quantify the exact size and speed of the 2010 wave, the patterns of motion in the GPS data indicate that it must have been smaller than the 2012 wave but similar in speed and other aspects.

Now according to the observations, it is theorized that previously known processes combined to make the mass move so quickly. The huge volume of water lubricated the base of the glacier, allowing it to move more rapidly, and softened the side margins where the flowing glacier meets rock or stationary ice. These changes allowed the ice to slide downstream so fast that ice farther inland couldn’t keep up at the normal levels.

JPL scientist Surendra Adhikari, who led the study has said:

“We know for sure that the triggering mechanism was the surface melting of snow and ice, but we do not fully understand the complex array of processes that generate solitary waves.”

NASA further claims that the wave could not have been detected by the usual methods. The usual method includes measuring the thinning of glaciers with airborne radar respectively.

It is believed that Rink is one of Greenland’s major outlets to the ocean, draining about 11 billion tons of ice per year. Surprisingly, during summer 2012, it lost an additional 6.7 gigatons of mass in the form of a solitary wave. The long pulse of mass loss, called a solitary wave, is the new discovery. It may increase the potential for sustained ice loss in Greenland, as the climate warms further.